US7212719B2 - Optical connector cleaning tool, cleaning tape, optical connector cleaning method, optical component cleaning tool - Google Patents

Optical connector cleaning tool, cleaning tape, optical connector cleaning method, optical component cleaning tool Download PDF

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Publication number
US7212719B2
US7212719B2 US11/216,211 US21621105A US7212719B2 US 7212719 B2 US7212719 B2 US 7212719B2 US 21621105 A US21621105 A US 21621105A US 7212719 B2 US7212719 B2 US 7212719B2
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United States
Prior art keywords
cleaning
face
optical
tape
connector
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Expired - Lifetime
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US11/216,211
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English (en)
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US20050286853A1 (en
Inventor
Kunihiko Fujiwara
Takaaki Ishikawa
Yuwa Tanaka
Hiroshi Furukawa
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Fujikura Ltd
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Fujikura Ltd
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Priority claimed from JP2003060684A external-priority patent/JP3836439B2/ja
Priority claimed from JP2003143557A external-priority patent/JP4173402B2/ja
Priority claimed from JP2003333482A external-priority patent/JP3880955B2/ja
Priority claimed from JP2003333483A external-priority patent/JP4163083B2/ja
Priority claimed from JP2004018513A external-priority patent/JP2005215045A/ja
Application filed by Fujikura Ltd filed Critical Fujikura Ltd
Assigned to FUJIKURA LTD. reassignment FUJIKURA LTD. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: FUJIWARA, KUNIHIKO, FURUKAWA, HIROSHI, ISHIKAWA, TAKAAKI, TANAKA, YUWA
Publication of US20050286853A1 publication Critical patent/US20050286853A1/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B1/00Cleaning by methods involving the use of tools
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B1/00Cleaning by methods involving the use of tools
    • B08B1/10Cleaning by methods involving the use of tools characterised by the type of cleaning tool
    • B08B1/14Wipes; Absorbent members, e.g. swabs or sponges
    • B08B1/143Wipes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B1/00Cleaning by methods involving the use of tools
    • B08B1/10Cleaning by methods involving the use of tools characterised by the type of cleaning tool
    • B08B1/16Rigid blades, e.g. scrapers; Flexible blades, e.g. wipers
    • B08B1/165Scrapers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B1/00Cleaning by methods involving the use of tools
    • B08B1/30Cleaning by methods involving the use of tools by movement of cleaning members over a surface
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B2240/00Type of materials or objects being cleaned
    • B08B2240/02Optical fibers or optical fiber connectors
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B6/00Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
    • G02B6/24Coupling light guides
    • G02B6/36Mechanical coupling means
    • G02B6/38Mechanical coupling means having fibre to fibre mating means
    • G02B6/3807Dismountable connectors, i.e. comprising plugs
    • G02B6/3833Details of mounting fibres in ferrules; Assembly methods; Manufacture
    • G02B6/3847Details of mounting fibres in ferrules; Assembly methods; Manufacture with means preventing fibre end damage, e.g. recessed fibre surfaces
    • G02B6/3849Details of mounting fibres in ferrules; Assembly methods; Manufacture with means preventing fibre end damage, e.g. recessed fibre surfaces using mechanical protective elements, e.g. caps, hoods, sealing membranes
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B6/00Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
    • G02B6/24Coupling light guides
    • G02B6/36Mechanical coupling means
    • G02B6/38Mechanical coupling means having fibre to fibre mating means
    • G02B6/3807Dismountable connectors, i.e. comprising plugs
    • G02B6/3833Details of mounting fibres in ferrules; Assembly methods; Manufacture
    • G02B6/3866Devices, tools or methods for cleaning connectors
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B6/00Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
    • G02B6/24Coupling light guides
    • G02B6/36Mechanical coupling means
    • G02B6/38Mechanical coupling means having fibre to fibre mating means
    • G02B6/3807Dismountable connectors, i.e. comprising plugs
    • G02B6/3873Connectors using guide surfaces for aligning ferrule ends, e.g. tubes, sleeves, V-grooves, rods, pins, balls
    • G02B6/3885Multicore or multichannel optical connectors, i.e. one single ferrule containing more than one fibre, e.g. ribbon type

Definitions

  • the present invention relates to an optical connector cleaning tool for cleaning the connection end face of an optical connector and an optical connector plug cleaning method. It also relates to an optical component cleaning tool for cleaning the end face of an optical component such as an optical connector, a cleaning tape, and a guide for cleaning optical components.
  • connections between optical connectors in connector housings such as optical connector adaptors and optical connector receptacles are realized by butt-coupling of optical fiber end faces situated at the connection end faces of optical connectors.
  • Contamination such as debris, dust and oil that adheres to the connection end face of an optical connector from insertion of the optical connector into a connector housing for butt connection can cause damage during attaching/detaching and an increase in transmission loss, and so prior to butt connection the connection end face must be cleaned.
  • connection end face Conventionally, cleaning of a connection end face has generally been performed with a cotton swab soaked in alcohol or a tape-type cleaner, with wiping and cleaning performed by placing the cleaner, gripped directly by hand, up against the connection end face of the optical connector.
  • a cleaner employed for such a use there has been proposed one comprises a projection portion having an opening in a distal end thereof where cleaning tape is exposed, and by inserting the projection portion into a space (connector housing hole) in an optical connector adaptor (optical adaptor), the cleaning tape is disposed to face and abut the connection end face of a ferrule of an optical connector housed in the optical connector adaptor, with wiping and cleaning of the connection end face of the optical plug performed by feeding the tape (refer, for example, to Japanese Unexamined Patent Application No. 2000-284147).
  • the problem to be solved of the present invention is to provide an optical connector cleaning tool that can easily and reliably clean both an optical connector in a connector housing and an optical connector plug outside the connector housing.
  • Another problem to be solved of the present invention is to provide an optical component cleaning tool and an optical component cleaning guide for cleaning the end face of optical components.
  • FIG. 44 there has been proposed one including a projection portion 2110 having an opening 2116 in a distal end thereof where cleaning tape 2102 is exposed, and by inserting the projection portion 2110 into a space (connector housing hole 2172 ) in an optical connector adaptor 2170 (optical adaptor), the tape 2102 is disposed to face and abut the connection end face 2161 a of a ferrule 2161 of an optical connector plug 2160 (optical plug) housed in the optical connector adaptor 2170 , with wiping and cleaning of the connection end face 2161 a of the optical plug 2160 performed by feeding the tape 2102 .
  • the tape 2102 that performs wiping and cleaning of the connection end face 2161 a of the optical plug 2160 is provided so as to pass over the top of the distal end surface 2112 a (abutting surface) of the head portion 2112 that is pivotally mounted on pivot 2111 , with the direction of the head portion 2112 varying by pivotal rotation centered on the pivot 2111 so as to be able to accommodate varying angles of the connection end face 2161 a of the ferrule 2161 (for example, see Japanese Patent No. 3350850).
  • an optical connector ferrule there exist those with protruding members protruding from the connection end face as in MT (Mechanically Transferable) type optical connector ferrules (for example, those defined according to JIS C 5981).
  • MT Mechanismically Transferable
  • the protruding members act as obstacles that give rise to uncleaned areas on the connection end face.
  • the aforementioned MT type optical connector ferrule there is the constitution of two guide pins for positioning during butting connection protruding from the connection end face, with the region between the two guide pins (hereafter, the central region) being difficult to clean. Where there are uncleaned areas, debris and the like left behind becomes sandwiched during butting connection of the optical connector, giving rise to problems such as an increase in loss due to minute misalignment of the optical axis.
  • a problem to be solved by the present invention is to provide an optical connector cleaning tool, a cleaning tape, and an optical connector cleaning method that (1) can effectively clean the connection end face even when protruding members exist on the connection end face of the optical connector, (2) can effectively clean near the bases of the protruding members (the base ends of the protrusions from the connection end face), (3) for optical connectors of a constitution having two guide pins protruding from the connection end face can also effectively clean outside the region positioned between the two guide pins on the connection end face, and (4) can efficiently clean simultaneously the region positioned between the two guide pins (central region) and the region that is outside thereof.
  • FIG. 57 there has been proposed one including a projection portion 3110 having an opening 3116 in a distal end thereof where cleaning tape 3102 is exposed, and by inserting the projection portion 3110 into a space (connector housing hole 3172 ) in an optical connector adaptor 3170 (optical adaptor), the tape 3102 is disposed to face and abut the connection end face 3161 a of a ferrule 3161 of an optical connector plug 3160 (optical plug) housed in the optical connector adaptor 3170 , with wiping and cleaning of the connection end face 3161 a of the optical plug 3160 performed by feeding the tape 3102 .
  • the tape 3102 that performs wiping and cleaning of the connection end face 3161 a of the optical plug 3160 is provided so as to pass over the top of the distal end surface 3112 a (abutting surface) of the head portion 3112 that is pivotally mounted on pivot 3111 , with the direction of the head portion 3112 varying by pivotal rotation centered on the pivot 3111 so as to be able to accommodate varying angles of the connection end face 3161 a of the ferrule 3161 (for example, see Japanese Patent No. 3350850).
  • the tape 3102 wrapped around the head portion 3112 can end up misaligning in the width direction thereof (the direction perpendicular to the sheet of FIG. 57 ).
  • the abutting force of the connection end face 3161 a abutting against the tape 3102 becomes uneven, the tape 3102 is not smoothly sent and cleaning is not reliably performed, giving rise to the problem of contaminants partially remaining on the connection end face 3161 a.
  • a problem to be solved by the present invention is to provide an optical connector cleaning tool that can easily and reliably clean the connection end face of an optical connector in a state of the optical connector being inserted in a connector housing.
  • FIG. 80 there has been proposed one including a projection portion 4110 having an opening 4116 in a distal end thereof where a tape for cleaning 4102 (cleaning tape) is exposed, and by inserting the projection portion 4110 into a space (connector housing hole 4172 ) in an optical connector adaptor 4170 (optical adaptor), the tape 4102 is disposed to face and abut the connection end face 4161 a of a ferrule 4161 of an optical connector plug 4160 (optical plug) housed in the optical connector adaptor 4170 , with wiping and cleaning of the connection end face 4161 a of the optical plug 4160 performed by feeding the tape 4102 .
  • a projection portion 4110 having an opening 4116 in a distal end thereof where a tape for cleaning 4102 (cleaning tape) is exposed, and by inserting the projection portion 4110 into a space (connector housing hole 4172 ) in an optical connector adaptor 4170 (optical adaptor), the tape 4102 is disposed to face and abut the connection end face 4161 a
  • the tape 4102 that performs wiping and cleaning of the connection end face 4161 a of the optical plug 4160 is provided so as to pass over the top of the distal end surface 4112 a of the head portion 4112 that is pivotally mounted on pivot 4111 , with the direction of the head portion 4112 varying by pivotal rotation centered on the pivot 4111 so as to be able to accommodate varying angles of the connection end face 4161 a of the ferrule 4161 (for example, see Japanese Patent No. 3350850).
  • connection end face 4161 a of the optical plug 4160 and the distal end surface 4112 a of the head portion 4112 misalign (make uneven contact)
  • the tape 4102 does not make good contact with the connection end face 4161 a
  • the abutting force of the connection end face 4161 a abutting the tape 4102 becomes uneven and cleaning is not reliably performed, giving rise to the problem of contaminants partially remaining on the connection end face 4161 a.
  • connection end face 4161 a when the head portion 4112 is pressed against the ferrule 4161 , there is the risk of damage and the like to the connection end face 4161 a by strong application of the pressing force directly on the connection end face 4161 a .
  • the pushing pressure of the head portion 4112 pressing the ferrule 4161 is too strong during cleaning, the connection end face 4161 a is excessively cleaned (extracted), which may lead to damage and the like to the connection end face 4161 a.
  • a problem to be solved by the present invention is to provide an optical connector cleaning tool that can easily and reliably clean the connection end face of an optical connector in the state of the optical connector inserted in a connector housing and, moreover, prevent excessive pushing pressure from being applied to the connection end face and relieve it.
  • a problem to be solved is to provide an optical component cleaning tool that can clean the end face of optical components.
  • a cleaner to be used for cleaning optical connectors there has been proposed one including a projection portion having an opening in a distal end thereof where a cleaning tape is exposed, and by inserting the projection portion into a space (connector housing hole) in an optical connector adaptor (optical adaptor), the cleaning tape is disposed to face and abut the connection end face of a ferrule of an optical connector plug (optical plug) housed in the optical connector adaptor, with wiping and cleaning of the connection end face of the optical plug performed by feeding the cleaning tape (for example, see Japanese Patent No. 3350850).
  • a problem to be solved by the present invention is to provide an optical connector cleaning tool that can easily and reliably clean the connection end face of an optical connector in the state of the optical connector inserted in a connector housing.
  • Another problem to be solved by the present invention is to provide an optical component cleaning tool that can clean the end face of optical components.
  • the present invention provides an optical connector cleaning tool that performs wiping and cleaning of a connection end face of an optical connector by movement of a cleaning member
  • the optical connector cleaning tool including a tool body; a driving mechanism that moves the cleaning member; an insertion portion that protrudes from the tool body, with the cleaning member being disposed at the projected distal end from the tool body, and constituted to position the portion of the cleaning member disposed at the projected distal end so as to be able to abut the connection end face of the optical connector; and a connector cleaning guide that is attached to the insertion portion, the connector cleaning guide having a first port in which the optical connector can be inserted and a second port in which the insertion portion can be inserted and performing the function of positioning the connection end face of the optical connector inserted from the first port at a position to abut the cleaning member of the insertion portion.
  • the connector cleaning guide has a lid to cover the first port.
  • the cleaning member be a plurality of cleaning tapes, and the plurality of cleaning tapes be disposed side by side approximately parallel to each other, spaced to escape the protruding member.
  • the present invention also provides an optical connector plug cleaning method that cleans a connection end face of an optical connector plug outside of a connector housing using an optical connector cleaning tool that, with an insertion portion projected from a tool body inserted in a connector housing, performs wiping and cleaning of a connection end face of an optical connector in the connector housing by movement of a cleaning member disposed on a projected distal end of the insertion portion from the tool body, the optical connector plug cleaning method including a step to attach to the insertion portion a connector cleaning guide having a first port in which an optical connector plug is insertable and a second port in which the insertion portion is insertable; a step of abutting the connection end face of the optical connector plug inserted in the connector cleaning guide and the cleaning member of the insertion portion; and a step of wiping and cleaning of the connection end face by movement of the cleaning member.
  • the present invention also provides an optical component cleaning tool that performs wiping and cleaning of an end face of an optical component optically connected by a connection housing by movement of a cleaning member, the optical component cleaning tool including a tool body; a driving mechanism that moves the cleaning member; an insertion portion that protrudes from the tool body, with the cleaning member disposed at the projected distal end from the tool body, being formed to be insertable in the connection housing in which the optical component is housed, and constituted to position the portion of the cleaning member disposed at the projected distal end so as to be able to abut the end face of the optical component by insertion in the connection housing; and an optical component cleaning guide that has a first port in which an optical component to be optically connected with an optical component in the connection housing is insertable and a second port in which the insertion portion is insertable, positions the optical component and the insertion portion, and causes the cleaning member and the end face of the optical component to abut facing each other.
  • the present invention also provides an optical component cleaning guide that positions an optical component and a cleaning member that cleans an end face of the optical component, wherein the cleaning member is provided in an optical component cleaning tool having an on-board driving mechanism that moves the cleaning member;
  • the optical component cleaning tool is provided with a tool body and an insertion portion that protrudes from the tool body, with the cleaning member being disposed at the projected distal end from the tool body, being formed to be insertable in the connection housing in which the optical component is housed, and constituted to position the portion of the cleaning member disposed at the projected distal end so as to be able to abut the end face of the optical component by insertion in the connection housing;
  • the optical component cleaning guide has a first port in which an optical component to be cleaned is insertable and a second port in which the insertion portion of the optical component cleaning tool is insertable, positions the optical component and the insertion portion, and is constituted to so as to cause the cleaning member and the end face of the optical component to abut facing each other.
  • the optical component cleaning guide it is preferable to provide a lid to cover the first port.
  • the cleaning member disposed at the projected distal end of the insertion portion is positioned to be abuttable against the connection end face of the optical connector housed in the optical connector housing.
  • the insertion portion can be positioned to be abuttable against the connection end face of an optical connector not housed in an optical connector housing. Accordingly, when performing connection of an optical connector, it is possible to easily and securely clean both an optical connector housed in a connector housing and an optical connector prior to insertion in a connector housing with one cleaning tool, thereby improving cleaning workability.
  • the present invention also provides an optical connector cleaning tool that performs wiping and cleaning of a connection end face of an optical connector in a connector housing by feeding movement of a cleaning tape, including a tool body and an insertion portion protruding from the tool body and formed to be insertable in the connector housing, and wherein a head portion that has an abutting face for securing at its distal end an abutting area with respect to the connection end face, with a portion of the cleaning tape drawn from the tool body to the insertion portion being wrapped along the abutting face, is provided in the insertion portion and, and in the cleaning tape, a contact cleaning portion pressed against the connection end face of the optical connector by the head portion is disposed in a plurality, side by side, via protruding member escape portions that avoid protruding members protruded from the connection end face of the optical connector and extend in parallel along the lengthwise direction of the cleaning tape.
  • this optical connector cleaning tool it is also possible to adopt a constitution in which concave portions for avoiding interference between the head portion and protruding members that protrude from the connection end face when the insertion portion is inserted in the connector housing are set recessed from the abutting face of the head portion and a positioning mechanism that positions the portion of the cleaning tape moved along the abutting face of the head portion so that the protruding member escape portions correspond to the concave portions is provided in the insertion portion.
  • the present invention also provides an optical connector cleaning method in which for an optical connector having positioning guide pins protruded from two locations on the connection end face separated from each other, by feeding a cleaning tape pressed against a central region being a portion positioned between the guide pins and an outer region positioned outside the central region via the guide pins on the connection end face, the central region and the outer region are cleaned.
  • the present invention also provides a cleaning tape that, pressed against a connection end face of an optical connector, cleans the connection end face by being fed, in which a contact cleaning portion pressed against the connection end face of the optical connector is disposed in a plurality, side by side, via protruding member escape portions that avoid protruding members protruded from the connection end face of the optical connector and extend in parallel along the lengthwise direction of the cleaning tape.
  • the protruding member escape portions are slits secured between adjacent contact cleaning portions
  • the protruding member escape portions are easily breakable portions formed so as to couple contact cleaning portions, and by running the protruding members through the easily breakable portions, the contact cleaning portions can be pressed against the connection end face of the optical connector, and, moreover, feeding of the cleaning tape with respect to the connection end face of the optical connector can be performed while the protruding members passing through the easily breakable portions break the easily breakable portions to separate the contact cleaning portions from each other
  • concavity forming portions that form on the inside thereof protruding member housing grooves capable of housing the protruding members are continuously formed along the lengthwise direction of the cleaning tape as the protruding member escape portions.
  • the protruding member escape portion may be one formed by the same member as the contact cleaning portion constituting the cleaning tape (in this case, all of the contact cleaning portions constituting the cleaning tape and the protruding member escape portions are formed by the identical member), but it may also be one formed by a different material from the contact cleaning portion, for example, one formed by a material such as a film weaker than the contact cleaning portion in order to facilitate penetration of the protruding member and breakage along the lengthwise direction of the cleaning tape (the easily breakable portion).
  • Examples of an easily breakable portion formed by the same member as the contact cleaning portion are a thin portion formed by the same member as that forming the contact cleaning portion (including those facilitating cleavage by the formation of fine grooves), a region with small holes such as perforations formed at a high density (this region formed extending along the lengthwise direction of the cleaning tape), and a region with a slit-shaped groove extending along the lengthwise direction of the cleaning tape continuously provided in the lengthwise direction of the cleaning tape via coupling portions that couple the contact cleaning portions, with the region being formed weaker than the contact cleaning portion (to facilitate penetration of the protruding member and breakage along the lengthwise direction of the cleaning tape).
  • the contact cleaning portion can be disposed on both opposing sides of the protruding member, which by feeding the cleaning tape enables simultaneous cleaning of both opposing sides of the protruding member.
  • thrusting the protruding member also easily enables the contact cleaning portion on both sides of the protruding member escape portion to be brought into contact with the protruding member, and so debris adhering to the protruding member can be easily removed.
  • the contact cleaning portion can also easily be brought into contact with the protruding base end portion (base) of the protruding member from the connection end face, enabling efficient cleaning.
  • the cleaning tape can be a plurality of tapes each having a contact cleaning portion and being supplied from a plurality of supply reels.
  • the plurality of supply reels can be made to rotate separately, in which case, the feeding amount of the cleaning tapes could be made to differ from each other. Therefore, even if the elongation differs depending on thickness and strength of the tapes, variations in tension between the tapes can be restrained to enable stable tape feeding.
  • the optical connector cleaning tool be provided with a reverse-feed blocking mechanism to prevent reverse feeding of the cleaning tape. Doing so enables stable feeding of the cleaning tape in the prescribed direction.
  • the optical connector cleaning tool be provided with a slack prevention mechanism that prevents slack in the cleaning tape.
  • the slack prevention mechanism can be constituted from a mechanism that prevents reverse rotation of the cleaning tape take-up reel and a rotation resistance imparting mechanism that imparts rotation resistance to rotation of the supply reel.
  • An optical connector cleaning tool including a slack prevention mechanism is not limited to one with a plurality of contact cleaning portions, and may have one contact cleaning portion.
  • optical connector cleaning tool of the present invention can also be used as an optical component cleaning tool for cleaning the end faces of various optical components.
  • the present invention provides an optical connector cleaning tool that performs wiping and cleaning of a connection end face of an optical connector in a connector housing by movement of a cleaning member
  • the optical connector cleaning tool including a tool body and an insertion portion protruding from the tool body and formed to be insertable in the connector housing, the cleaning member being a tape, a supply reel wound with the tape and a take-up reel that spools and collects the tape after use being rotatably mounted in the tool body, a head portion that has an abutting face for securing at its distal end an abutting area with respect to the connection end face, with tape supplied from the supply reel being wrapped along the abutting face, being provided in the insertion portion, and in the head portion, guide grooves that prevent shifting of the tape being formed in at least one of the upstream side and downstream side with respect to the abutting face in the travel direction of the tape.
  • the present invention is particularly effective when provided with a head tilting mechanism constituted so as to allow tilting of the head portion with respect to a pushing force on the head portion.
  • the present invention can be constituted such that concave portions for avoiding interference between the head portion and protruding members that protrude from the connection end face when the insertion portion is inserted in the connector housing are set recessed from the abutting face of the head portion, and the tape guided by the guide grooves allows insertion of the protruding members into the concave portions.
  • the present invention also provides an optical connector cleaning tool that performs wiping and cleaning of a connection end face of an optical connector in a connector housing by movement of a cleaning member
  • the optical connector cleaning tool including a tool body and an insertion portion protruding from the tool body and formed to be insertable in the connector housing, the cleaning member being a tape
  • the insertion portion there being provided a head portion that has an abutting face for securing at its distal end an abutting area with respect to the connection end face and that is wound along the abutting face with the tape, and in the head portion, guide grooves that prevent shifting of the tape in the width direction being formed in at least one of the upstream side and downstream side with respect to the abutting face in the travel direction of the tape.
  • guide grooves to prevent shifting of the tape in the width direction are provided upstream and/or downstream from the abutting face in the travel direction of the tape. Therefore tape wrapped around the head portion is guided by the guide grooves and shifting in the width direction is restrained. For this reason, the connection end face can abut the tape with a uniform pressing force, and the tape can be smoothly fed. Accordingly, cleaning can be reliably performed so that contaminants do not remain on the connection end face.
  • the tape not making good contact at the connection end face due to shifting of the center location of the connection end face of the optical connector and the abutting face of the head portion and uneven abutting force of the connection end face abutting the tape is restrained to enable reliable removal of contaminants from the connection end face.
  • shifting of the tape in the width direction is restrained.
  • the present invention provides an optical connector cleaning tool that performs wiping and cleaning of a connection end face of an optical connector by movement of a cleaning member
  • the optical connector cleaning tool including a tool body and an insertion portion protruding from the tool body and formed to be insertable in a connector housing for housing and connecting the optical connector, the insertion portion equipped with a head member for securing at its distal end face an abutting area of the cleaning tape with respect to the connection end face, the head member being supported by a support mechanism having a plurality of rotational central axes that rotationally move the head member, and for at least one of the rotational central axes, the rotational axis line of the rotational central axis is in a twisted position with respect to the straight line extending in the insertion direction of the optical connector from the center location of the connection end face of the optical connector when the connection end face of the optical connector is abutted against the distal end face of the head member.
  • twisted position refers to any positional relation in the positional relation of two straight lines in a space that neither intersect nor are parallel.
  • the support mechanism can be one including a waveform spring having a plurality of bending curvature portions.
  • the angle formed by the feeding direction of the cleaning tape supplied to the head member and the feeding direction of the cleaning tape moving along the distal end face of the head member is smaller than the angle formed by the feeding direction of the cleaning tape moving along the distal end face of the head member and the feeding direction of the cleaning tape being sent away from the head member (second angle).
  • the present invention also provides an optical connector cleaning tool that performs wiping and cleaning of an end face of an optical component by movement of a cleaning tape
  • the optical component cleaning tool including a tool body and an insertion portion protruding from the tool body and formed to be insertable in a housing for housing the optical component, the insertion portion equipped with a head member for securing at its distal end face an abutting area of the cleaning tape with respect to the connection end face, the head member being supported by a support mechanism having a plurality of rotational central axes that rotationally move the head member, and for at least one of the rotational central axes, when the end face of the optical component is abutted against the distal end face of the head member, the rotational axis line of the rotational central axis is in a twisted position with respect to the straight line extending in the insertion direction of the optical connector from the center location of the end face of the optical component.
  • the distal end face of the head portion is tiltable and is not substantially displaced in the tilting direction thereof. Therefore, the tape not making good contact at the connection end face due to shifting of the center location of the connection end face of the optical connector and the abutting face of the head portion and uneven abutting force of the connection end face abutting the tape is restrained to enable reliable removal of contaminants from the connection end face.
  • the head portion can recede in a direction (direction of separation) opposite the ferrule of the optical connector, and so during insertion of the insertion portion or cleaning, an appropriate amount of pushing pressure is applied to the ferrule, which can minimize damage to the connection end face and the optical fiber end face.
  • the present invention provides an optical connector cleaning tool that performs wiping and cleaning of a connection end face of an optical connector by movement of a cleaning tape
  • the optical connector cleaning tool including a tool body and an insertion portion protruding from the tool body and formed to be insertable in a connector housing for housing and connecting the optical connector, in the insertion portion there being disposed a head member for securing at its distal end face an abutting area of the cleaning tape with respect to the connection end face, and a scraper for removing foreign matter adhering to the cleaning tape abutting a portion of the cleaning tape supplied to the head member.
  • Guide grooves to prevent shifting of the cleaning tape in the width direction can be provided on the scraper.
  • the cleaning tape can be a plurality of tapes supplied from a plurality of supply reels.
  • a slack prevention mechanism can be provided.
  • the present invention is an optical component cleaning tool that performs wiping and cleaning of an end face of an optical component by movement of a cleaning tape
  • the optical component cleaning tool including a tool body and an insertion portion set to protrude from the tool body and formed to be insertable in a housing for housing the optical component, in the insertion portion there being disposed a head member for securing at its distal end face an abutting area of the cleaning tape with respect to the connection end face, and a scraper for removing foreign matter adhering to the cleaning tape abutting the portion of the cleaning tape supplied to the head member.
  • the cleaning tool of the present invention by having a scraper abut the cleaning tape, foreign matter adhering to the cleaning tape can be scraped off and removed by the scraper while the tape is fed for cleaning a connection end face.
  • the connection end face of the ferrule can always be cleaned with clean cleaning tape, thereby enabling contaminants on the connection end face to be reliably removed.
  • the present invention also provides an optical connector cleaning tool that performs wiping and cleaning of a connection end face of an optical connector that is connected by a connector housing by movement of a cleaning member
  • the optical connector cleaning tool including a tool body; a driving mechanism that moves the cleaning member; an insertion portion that protrudes from the tool body, with the cleaning member disposed at the projected distal end from the tool body, being formed to be insertable in the connector housing in which the optical connector is housed, and constituted to position the portion of the cleaning member disposed at the projected distal end so as to be able to abut the connection end face of the optical connector by insertion in the connector housing; and a connector cleaning guide having a first port in which an optical connector to be connected with an optical connector housed in a connector housing is insertable and a second port in which the insertion portion is insertable, positioning the optical connector and the insertion portion, and causing the cleaning member and the connection end face of the optical connector to abut facing each other.
  • FIG. 1A is a front view showing an overview of the cleaning unit (cleaning tool) according to the first embodiment of the present invention and FIG. 1B is a perspective view thereof.
  • FIG. 2 is a sectional view showing the inside of the cleaning unit shown in FIGS. 1A and 1B .
  • FIG. 3 is a sectional view showing the inside of the cleaning unit shown in FIGS. 1A and 1B .
  • FIG. 4 is a partially enlarged perspective view of the insertion portion of the cleaning unit shown in FIGS. 1A and 1B .
  • FIG. 5 is front view of an example of a ferrule of an optical connector.
  • FIG. 6 is a partial longitudinal sectional view of the main portions of the optical connector cleaning tool shown in FIGS. 1A and 1B .
  • FIG. 7 is a partial sectional view showing the state of the cap in the optical connector cleaning tool in FIG. 6 taken out.
  • FIG. 8 is a partial sectional view showing an example of the state of the optical connector cleaning tool in FIG. 6 inserted in an optical connector.
  • FIG. 9 is an exploded perspective view showing the state of the insertion portion of the cleaning unit shown in FIGS. 1A and 1B and an optical connector to be abutted by the connector cleaning guide.
  • FIG. 10 is a sectional view showing the state of the insertion portion of the cleaning unit shown in FIGS. 1A and 1B to be inserted in the connector insertion hole of a connector housing in which an optical connector is housed.
  • FIG. 11 is a partial longitudinal sectional view showing the optical connector cleaning tool according to the second embodiment of the present invention.
  • FIG. 12A is a front view of the guide in the cleaning tool according to the third embodiment of the present invention
  • FIG. 12B is a plan view thereof
  • FIG. 12C is a left-side view thereof
  • FIG. 12D is a right-side view thereof.
  • FIG. 13 is a sectional view showing an example of the state of the insertion portion of the cleaning tool shown in FIGS. 12A to 12D and an optical connector plug inserted in a guide cap.
  • FIG. 14 is a sectional view showing an example of the state of the insertion portion of the cleaning tool shown in FIGS. 12A to 12D and an optical connector plug inserted in an optical connector adaptor.
  • FIG. 15A is a front view showing an overview of the optical connector cleaning tool according to the fourth embodiment of the present invention
  • FIG. 15B is a perspective view thereof.
  • FIG. 16 is a sectional view showing the inside of the optical connector cleaning tool shown in FIGS. 15A and 15B .
  • FIG. 17 is a sectional view showing the inside of the optical connector cleaning tool shown in FIGS. 15A and 15B .
  • FIG. 18 is a sectional view showing an example of the state of the insertion portion of the optical connector cleaning tool shown in FIGS. 15A and 15B inserted in a connector housing.
  • FIG. 19 is a sectional view showing another example of the state of the insertion portion of the optical connector cleaning tool shown in FIGS. 15A and 15B inserted in a connector housing.
  • FIG. 20 is a half sectional perspective view showing another example of a possible state of the tape abutting mechanism of the optical connector cleaning tool shown in FIGS. 15A and 15B .
  • FIG. 21 is a half sectional perspective view showing another example of a possible state of the tape abutting mechanism of the optical connector cleaning tool shown in FIGS. 15A and 15B .
  • FIG. 22 is a front view showing the insertion portion of the optical connector cleaning tool shown in FIGS. 15A and 15B .
  • FIG. 23 is a partial enlarged perspective view of the insertion portion of the optical connector cleaning tool shown in FIGS. 15A and 15B .
  • FIG. 24 is a front view showing an example of a ferrule of an optical connector plug.
  • FIG. 25 is an exploded perspective view showing the state of the insertion portion of the optical connector cleaning tool shown in FIGS. 15A and 15B to be inserted in the connector insertion hole of a connector housing in which an optical connector is housed.
  • FIG. 26 is a sectional view showing the interior of the insertion portion of an optical connector cleaning tool according to a modification of the present invention.
  • FIG. 27A is a plan view showing an example of the cleaning tape
  • FIG. 27B is a sectional view thereof.
  • FIG. 28A is a plan view showing another example of the cleaning tape
  • FIG. 28B is a sectional view thereof.
  • FIG. 29A is a plan view showing another example of the cleaning tape
  • FIG. 29B is a sectional view thereof.
  • FIG. 30A is a perspective view showing an example of a head portion applying the cleaning tape of FIGS. 29A and 29B
  • FIG. 30B is a plan sectional view thereof.
  • FIG. 31A is a front view showing an example of the take-up reel of the cleaning tool according to the fifth embodiment of the present invention
  • FIG. 31B is a half sectional view thereof.
  • FIG. 32 is a cutaway perspective view of the take-up reel shown in FIGS. 31A and 32A .
  • FIG. 33A is a front view showing an example of the supply reel of the cleaning tool according to the fifth embodiment of the present invention
  • FIG. 33B is a perspective view thereof.
  • FIG. 34 is a partial sectional view showing the state of the supply reel shown in FIGS. 33A and 33B mounted on the supply reel support shaft.
  • FIG. 35A is a front view showing an example of the dial according to the cleaning tool of the fifth embodiment of the present invention
  • FIG. 35B is a half sectional view thereof.
  • FIG. 36 is a front view showing an example of the first case half-body according to the cleaning tool of the fifth embodiment of the present invention.
  • FIG. 37 is a perspective view of the first case half-body shown in FIG. 36 .
  • FIG. 38 is a front view showing an example of the second case half-body according to the cleaning tool of the fifth embodiment of the present invention.
  • FIG. 39 is a perspective view of the second case half-body shown in FIG. 38 .
  • FIG. 40A is a front view showing an overview of the optical connector cleaning tool according to the fifth embodiment of the present invention
  • FIG. 40B is a perspective view thereof.
  • FIG. 41 is a sectional view showing the inside of the optical connector cleaning tool according to the fifth embodiment of the present invention.
  • FIG. 42 is a sectional view showing the inside of the optical connector cleaning tool according to the fifth embodiment of the present invention.
  • FIGS. 43A to 43D are drawings explaining the operation of the feeding amount notification mechanism according to the cleaning tool of the fifth embodiment of the present invention.
  • FIG. 44 is a sectional view showing an example of the state of a conventional cleaner inserted in the connector housing.
  • FIG. 45A is a front view showing an overview of the optical connector cleaning tool according to the sixth embodiment of the present invention and FIG. 45B is a perspective view thereof.
  • FIG. 46 is a sectional view showing the inside of the optical connector cleaning tool shown in FIGS. 45A and 45B .
  • FIG. 47 is a sectional view showing the inside of the optical connector cleaning tool shown in FIGS. 45A and 45B .
  • FIG. 48 is a sectional view showing an example of the state of the insertion portion of the optical connector cleaning tool shown in FIGS. 45A and 45B inserted in a connector housing.
  • FIG. 49 is a sectional view showing another example of the state of the insertion portion of the optical connector cleaning tool shown in FIGS. 45A and 45B inserted in a connector housing.
  • FIG. 50 is a half sectional perspective view showing another example of a possible state of the tape abutting mechanism of the optical connector cleaning tool shown in FIGS. 45A and 45B .
  • FIG. 51 is a half sectional perspective view showing another example of a possible state of the tape abutting mechanism of the optical connector cleaning tool shown in FIGS. 45A and 45B .
  • FIG. 52 is a front view showing the insertion portion of the optical connector cleaning tool shown in FIGS. 45A and 45B .
  • FIG. 53 is a partial enlarged perspective view of the insertion portion of the optical connector cleaning tool shown in FIGS. 45A and 45B .
  • FIG. 54 is a front view showing an example of a ferrule of an optical connector plug.
  • FIG. 55 is an exploded perspective view showing the state of the insertion portion of the optical connector cleaning tool shown in FIGS. 45A and 45B to be inserted in the connector insertion hole of a connector housing in which an optical connector is housed.
  • FIG. 56 is a sectional view showing the interior of the insertion portion of an optical connector cleaning tool according to a modification of the present invention.
  • FIG. 57 is a sectional view showing an example of the state of a conventional cleaner inserted in the connector housing.
  • FIG. 58A is a plan view showing an overview of the optical connector cleaning tool according to the seventh embodiment of the present invention
  • FIG. 58B is a front view thereof.
  • FIG. 59A is a sectional view along line II—II showing the second case half-body according to the cleaning tool of FIGS. 58A and 58B
  • FIG. 59B is a front view thereof.
  • FIG. 60A is a sectional view along line III—III showing the first case half-body according to the cleaning tool of FIGS. 58A and 58B
  • FIG. 60B is a front view thereof.
  • FIG. 61 is a sectional view showing the inside of the cleaning tool of FIGS. 58A and 58B .
  • FIG. 62 is a sectional view showing the inside of the cleaning tool of FIGS. 58A and 58B .
  • FIG. 63A is a sectional view along line VI—VI showing an example of the dial of the present cleaning tool
  • FIG. 63B is a front view thereof.
  • FIG. 64 is a perspective view of the dial of FIGS. 63A and 63B .
  • FIG. 65A is a front view showing an example of the supply reel and take-up reel of the present cleaning tool
  • FIG. 65B is a sectional view along line VIII—VIII.
  • FIG. 66 is a partial sectional view showing the state of the supply reel and take-up reel shown in FIGS. 65A and 65B mounted on the support shaft.
  • FIG. 67A is a front view of the tape abutting member of the present cleaning tool
  • FIG. 67B is a plan view thereof
  • FIG. 67C is a left side view thereof
  • FIG. 67D is a right side view thereof.
  • FIG. 68 is a perspective view of the tape abutting member shown in FIGS. 67A to 67D .
  • FIG. 69A is a front view of the guide cap of the present cleaning tool
  • FIG. 69B is a plan view thereof
  • FIG. 69C is a left side view thereof
  • FIG. 69D is a right side view thereof.
  • FIG. 70A is a plan sectional view of the tool distal end portion of the present cleaning tool
  • FIG. 70B is a front sectional view thereof.
  • FIG. 71 is a sectional view showing an example of a possible state of the tape abutting mechanism of the preset cleaning tool.
  • FIG. 72 is a sectional view showing another example of a possible state of the tape abutting mechanism of the preset cleaning tool.
  • FIG. 73 is a sectional view showing another example of a possible state of the tape abutting mechanism of the preset cleaning tool.
  • FIG. 74 is a schematic view showing the state of an obliquely polished connection end face of an optical connector plug abutting the distal end face of the head member.
  • FIG. 75 is a sectional view showing an example of the state of the insertion portion of the present cleaning tool and the optical connector plug inserted in the guide cap.
  • FIG. 76 is a front view showing an example of a ferrule of an optical connector plug.
  • FIG. 77 is a front view showing the distal end face of the head member with the cleaning tape attached.
  • FIG. 78 is an exploded perspective view showing the state of the insertion portion of the present cleaning tool and the optical connector plug inserted in the optical connector adaptor.
  • FIGS. 79A to 79D are drawings explaining the operation of the feeding amount notification mechanism according to the present cleaning tool.
  • FIG. 80 is a sectional view showing an example of the state of a conventional cleaner inserted in a connector housing.
  • FIG. 81A is a plan view showing an overview of the optical connector cleaning tool according to the eighth embodiment of the present invention
  • FIG. 81B is a front view thereof.
  • FIG. 82A is a sectional view along line II—II showing the second case half-body according to the cleaning tool of FIGS. 81A and 81B
  • FIG. 82B is a front view thereof.
  • FIG. 83A is a sectional view along line III—III showing the first case half-body according to the cleaning tool of FIGS. 81A and 81B
  • FIG. 83B is a front view thereof.
  • FIG. 84 is a sectional view showing the inside of the cleaning tool of FIGS. 81A and 81B .
  • FIG. 85 is a sectional view showing the inside of the cleaning tool of FIGS. 81A and 81B .
  • FIG. 86A is a sectional view along line VI—VI showing an example of the dial of the present cleaning tool
  • FIG. 86B is a front view thereof.
  • FIG. 87 is a perspective view of the dial of FIGS. 86A and 86B .
  • FIG. 88A is a front view showing an example of the supply reel and take-up reel of the present cleaning tool
  • FIG. 88B is a sectional view along line VIII—VIII.
  • FIG. 89 is a partial sectional view showing the state of the supply reel and take-up reel shown in FIGS. 88A and 88B mounted on the support shaft.
  • FIG. 90A is a front view of the tape abutting member of the optical connector cleaning tool of the eighth embodiment of the present invention
  • FIG. 90B is a plan view thereof
  • FIG. 90C is a left side view thereof
  • FIG. 90D is a right side view thereof.
  • FIG. 91 is a perspective view of the tape abutting member shown in FIGS. 90A to 90D .
  • FIG. 92 is a partially enlarged sectional view of the vicinity of the scraper.
  • FIG. 93A is a partially enlarged view of the vicinity of the scraper showing an example of the scraper.
  • FIG. 93B is a partially enlarged view of the vicinity of the scraper showing a modification example of the scraper.
  • FIG. 94A is a front view of the guide cap of the present cleaning tool
  • FIG. 94B is a plan view thereof
  • FIG. 94C is a left side view thereof
  • FIG. 94D is a right side view thereof.
  • FIG. 95A is a plan sectional view of the tool distal end portion of the present cleaning tool
  • FIG. 95B is a front sectional view thereof.
  • FIG. 96 is a sectional view showing an example of a possible state of the tape abutting mechanism of the preset cleaning tool.
  • FIG. 97 is a sectional view showing another example of a possible state of the tape abutting mechanism of the preset cleaning tool.
  • FIG. 98 is a sectional view showing another example of a possible state of the tape abutting mechanism of the preset cleaning tool.
  • FIG. 99 is a schematic view showing the state of an obliquely polished connection end face of an optical connector plug abutting the distal end face of the head member.
  • FIG. 100 is a sectional view showing an example of the state of the insertion portion of the present cleaning tool and the optical connector plug inserted in the guide cap.
  • FIG. 101 is a front view showing an example of a ferrule of an optical connector plug.
  • FIG. 102 is a front view showing the distal end face of the head member with the cleaning tape attached.
  • FIG. 103 is an exploded perspective view showing the state of the insertion portion of the present cleaning tool and the optical connector plug inserted in the optical connector adaptor.
  • FIGS. 104A to 104D are drawings explaining the operation of the feeding amount notification mechanism according to the present cleaning tool.
  • FIGS. 1A through 14 The first through third embodiments of the present invention are explained below referring to FIGS. 1A through 14 .
  • FIGS. 1A through 6 are views showing the first embodiment of the optical connector cleaning tool of the present invention (hereafter simply referred to as the “cleaning tool”).
  • FIGS. 7 through 10 are views showing an embodiment of an optical connector cleaning method using the cleaning tool.
  • a cleaning tool 16 of the present embodiment is equipped with a cleaning unit 11 that integrates a tool body 110 and an insertion portion 120 and has a built-in driving mechanism 13 , a connector cleaning guide 140 (an optical connector cleaning guide. Hereafter simply referred to as a guide 140 ) formed to be mountable on the insertion portion 120 of the cleaning unit 11 , and a cap 150 that can be detachably attached to a plug insertion hole (described hereinafter) of the guide 140 .
  • optical connectors 160 , 180 and connector housing 170 to which the cleaning tool 16 of the first embodiment is applied are Multifiber Push-On (MPO) type optical connectors defined according to JIS C 5982.
  • MPO Multifiber Push-On
  • the optical connectors 160 , 180 are optical connector plugs (sometimes referred to hereafter simply as optical plugs) of a constitution housing Mechanically Transferable (MT) type optical connector ferrules 161 , 181 (hereafter simply referred to as ferrules) defined according to JIS C 5981 at a distal end portion of plastic sleeve-shaped housings 162 , 182 , with the whole plug being formed in a low profile sectional shape in appearance.
  • MT Mechanically Transferable
  • the direction corresponding to the low-profile, short side (vertical direction in FIG. 5 ) of the optical plugs 160 , 180 and the ferrules 161 , 181 is referred to as the thickness direction
  • the direction corresponding to the long side is referred to as the width direction (horizontal direction in FIG. 5 ).
  • thickness direction and width direction are also similarly used for the optical adaptor 170 in which the optical plugs 160 , 180 are inserted and the insertion portion 120 of the cleaning unit 11 inserted in the optical adaptor 170 to correspond to the thickness direction and the width direction of the optical plugs 160 , 180 and the ferrules 161 , 181 .
  • optical fiber holes 161 b of a prescribed number are opened so as to be arrayed on a connection end face 161 a of the ferrule 161 .
  • an optical fiber 163 is a four-fiber optical fiber tape ribbon, with optical fibers 163 a having their resin coating removed at the distal end portion thereof (bare optical fibers) inserted into the optical fiber holes 161 b (micro holes) in the ferrule 161 . By doing so they are terminated to be butt-connectable with another optical connector and penetrate the inside of the optical plug 160 to be drawn out from the back end of the optical plug 160 .
  • guide-pin holes 161 c are provided in the connection end face 161 a on both sides of the outside of the optical fiber holes 161 b in the width direction.
  • the ferrule 181 of the optical plug 180 is similar to that of FIG. 5 .
  • the ferrules 161 , 181 of the optical plugs 160 , 180 are aligned to a high degree of accuracy by a positioning mechanism of a widely-known guide-pin fitting system whereby protruding members 165 (guide pins) protruded from the connection end face 161 a are inserted into the guide-pin holes 161 c , enabling connection by butt-coupling the end faces of the optical fibers 163 a.
  • the optical fibers 163 , 183 are no particular limitations to the optical fibers 163 , 183 as long as they are suited to termination by the optical plug.
  • the optical fiber may be one having a single core, one having multi-core, an optical fiber cord having such a single core housed in a tube, an optical fiber cord having such multi-core housed in a tube, or the like.
  • the connector housing 170 is an optical connector adaptor (hereafter simply referred to as an optical adaptor) that receives the optical plugs 160 , 180 from connector insertion ports 171 , 171 on both sides thereon and optically couples them, having a connector housing hole 172 through which connector insertion ports 171 , 171 are interconnected and being formed in a sleeve shape.
  • the optical adaptor 170 as in the present invention is an all-inclusive term for relay equipment that positions, connects and fixes the optical plugs 160 , 180 on both sides thereof. Accordingly, the optical plugs 160 , 180 on both sides connected to the optical adaptor 170 are not limited to those shaped the same as each other. Even if optical plugs 160 , 180 with different shapes are connectable, it is termed an optical adaptor.
  • optical plugs 160 , 180 By inserting optical plugs 160 , 180 from the connector insertion port 171 in the optical adaptor 170 , the optical plugs 160 , 180 can be housed in the connector housing hole 172 .
  • the optical adaptor 170 is installed in a back plane 175 so that the connector insertion ports 171 , 171 open to the front and back sides, respectively, of the back plane 175 .
  • a connector housing such as the optical adaptor 170 being installed in a back plane and the like does not limit the present invention in any way.
  • couplings 168 , 188 are mounted for pressing the elastic engaging pieces from the outside to prevent release of engagement with the engaging recesses when the engaging claws and the engaging recesses are engaged.
  • the optical plug 160 , 180 When the optical plug 160 , 180 is inserted into the optical adaptor 170 from the connector insertion port 171 , it is housed in the connector housing hole 172 while displacement in a direction deviating from the insertion direction is restricted by the engagement of the engaging recesses and the engaging claws.
  • the cleaning unit 11 capable of being applied to cleaning of the connection end faces 161 a , 181 a of the optical plugs 160 , 180 is as shown in FIGS. 1A through 3 provided with the roughly case-shaped tool body 110 having a cleaning member 12 housed therein and the insertion portion 120 set to protrude from the tool body 110 and formed to be insertable in the connector housing hole 172 of the optical adaptor 170 .
  • the tool body 110 here is a two-split structure of first and second case half-bodies 111 , 112 made of plastic.
  • the case half-bodies 111 , 112 are constituted to be able to be integrated together by mating fitting pins protrudingly formed on the inner side of the first case half-body 111 with fitting holes set in bosses provided in a protruding manner on the inner side of the second case half-body 112 .
  • this is merely one example of the constitution of the tool body 110 and is not meant to particularly limit the present invention.
  • the cleaning member 12 is here a cleaning tape
  • the cleaning tape 12 (hereafter simply referred to at times as the tape) is not particularly limited, and one can be adopted in which a publicly known suitable cleaning fabric (unwoven or woven fabric) is processed into a tape shape.
  • a publicly known suitable cleaning fabric unwoven or woven fabric
  • those made from an extra-fine fiber such as polyester or nylon are exemplified.
  • the tape 12 is disposed in the central portion of the insertion portion 120 in the width direction (the horizontal direction in FIG. 9 ) and disposed on both side portions of the insertion portion 120 in the width direction.
  • the central tape 12 performs wiping and cleaning of region E 1 (central region) located between guide-pin holes 161 c or guide pins 165 on the ferrules 161 , 181 , and the tapes 12 on both sides perform wiping and cleaning of the regions E 2 , E 3 outside the guide-pin holes 161 c or guide pins 165 (outside regions). This enables efficient cleaning of the central region E 1 and the outside regions E 2 , E 3 of the connection end face 161 a simultaneously even when the guide pins 165 protrude from the connection end face 161 a of the optical plug 160 .
  • the number of tapes 12 is not particularly limited, and may be one or more.
  • a tape feeding mechanism that feeds the tape 12 is provided as the driving mechanism 13 in a storage space 135 of the tool body 110 .
  • This tape feeding mechanism 13 is provided with a supply reel 130 wound with the tape 12 , a take-up reel 131 that takes up and collects the tape 12 after use, and an operation dial 134 that operates the tape 12 .
  • a supply reel support shaft 132 on which the supply reel 130 is rotatably mounted and a take-up reel support shaft 133 on which the take-up reel 131 is rotatably mounted are provided to protrude toward the second case half-body 112 .
  • the supply reel support shaft 132 and the take-up reel support shaft 133 are integrally formed with one case half-body, and by inserting them in holes provided in the other case half-body, both case half-bodies 111 , 112 are bridged with the storage space 135 .
  • the tape 12 is stretched in the storage space 135 along pin-shaped tape guides 136 . Midway, it is wound around a head member 123 , to be described hereinafter, housed in the insertion portion 120 .
  • the operation dial 134 is mounted on the outer circumference of the supply reel support shaft 132 so as to be concentric with the supply reel 130 .
  • a gear 137 is integrally provided on the operation dial 134 so as to be coaxial. This gear 137 is meshed with a gear 138 provided coaxially and integrally with the take-up reel 131 . These gears 137 , 138 transmit driving force due to rotating operation of the operation dial 134 to the take-up reel 131 , and function as a driving force transmission mechanism 139 for taking up the tape 12 . A portion of the operation dial 134 is exposed to outside the tool body 110 from a window 111 a provided on a side surface of the tool body 110 .
  • the radius of the operation dial 134 is greater than the radius of the take-up reel 131 .
  • the length of the tape 12 taken up on the take-up reel 131 is smaller than the amount of operation of the operation dial 134 (displacement amount along the outer circumference of the operation dial 134 ) by just as much as the radial ratio. For this reason, very small feeding amounts of the tape 12 can be easily achieved.
  • the tape feeding mechanism 13 can be driven by operating the operation dial 134 by finger or the like to rotate it in the prescribed direction. More specifically, by rotation of the operation dial 134 , the take-up reel 131 rotates to take up the tape 12 , and the unused tape 12 is unreeled from the supply reel 130 and fed. Since the window 111 a opens to the side surface of the tool body 110 , even if the cleaning unit 11 is held with one hand, the operation dial 134 can be easily operated by a finger of the hand holding the cleaning unit 11 .
  • the cleaning unit 11 is, as shown in FIGS. 1A , 1 B and FIG. 2 , provided with the insertion portion 120 , which is set to protrude from the tool body 110 and formed to be insertable in the optical adaptor 170 .
  • an abutting portion 12 a of the cleaning member 12 (tape) disposed facing an opening portion 126 in the distal end of the insertion portion 120 is positioned to be abuttable against the connection end face 161 a , 181 a of the optical plug 160 , 180 .
  • the tool body 110 tapers toward the insertion portion 120 , with the insertion portion 120 formed at the distal end of a small diameter portion 119 (the left side in FIG. 1A ).
  • the abutting portion 12 a of the tape 12 is the portion positioned on an abutting face 124 of the head member 123 , with the abutting portion 12 a being replaced along the longitudinal direction of the tape 12 by feeding movement of the tape 12 .
  • a projecting wall 119 a for reinforcing the small diameter portion 119 is provided in the interior of the small diameter portion 119 . Since the path of the upstream side portion 12 b of the cleaning tape 12 that should be clean (hereafter referred to as the “upstream portion”) heading from the supply reel 130 to the head member 123 and the path of the downstream side portion 12 c of the cleaning tape 12 that is soiled from wiping and cleaning (hereafter referred to as the “downstream portion”) heading from the head member 123 toward the take-up reel 131 are partitioned by this projecting wall 119 a , it exhibits the effect of suppressing migration of contaminants on the cleaning tape 12 .
  • the upstream portion the path of the upstream side portion 12 b of the cleaning tape 12 that should be clean
  • a step 115 with the tool body 110 side is provided on the insertion portion 120 .
  • This step 115 is for preventing the depth of entry of the insertion portion 120 into the connector housing hole 172 from becoming too deep by the step 115 abutting the periphery 171 a of the connector insertion port 171 in the optical adaptor 170 when the insertion portion 120 is inserted in the connector housing hole 172 of the optical adaptor 170 .
  • the insertion portion 120 is a two-split structure similar to the tool body 110 , being formed by integration of insertion portion half-bodies 120 a , 120 b integrally formed with the case half-bodies 111 , 112 , respectively, accompanying the integration of the case half-bodies 111 , 112 .
  • Engaging recesses 121 formed to be engageable with the engaging claws of the elastic engaging pieces (described above) on the optical adaptor 170 when the insertion portion 120 is inserted in the optical adaptor 170 are formed on both sides in the width direction of the outer surface of the insertion portion 120 . Since front edge portions 121 a of the engaging recesses 121 (edge portions on the side near the distal end of the insertion portion 120 , on the left side in FIG. 4 ) are oblique faces, in the state of the engaging claws of the optical adaptor 170 engaged with the engaging recesses 121 , when the insertion portion 120 is pulled out in the disengagement direction (toward the upper right in FIG. 4 ), the engaging claws overcome the front edge portions 121 a so as to disengage from the engaging recesses 121 with comparatively little force.
  • the head member 123 which causes the tape 12 to abut the connection end face 161 a , 181 a of the ferrule 161 , 181 , is disposed in the insertion portion 120 .
  • the head member 123 has an abutting face 124 disposed facing the connection end face 161 a , 181 a in the state of the insertion portion 120 of the cleaning unit 11 inserted in the optical adaptor 170 .
  • the cleaning tape 12 disposed on the abutting face 124 is exposed to the outside of the insertion portion 120 via an opening portion in the protrusion distal end 126 (hereafter referred to at times as opening portion 126 ) of the insertion portion 120 .
  • the abutting face 124 is provided on the side of the insertion direction of the head member 123 (the left side in FIGS. 7 and 8 ).
  • the abutting face 124 is of an approximately rectangular shape and is able to effectively secure an abutting area against the connection end face 161 a , 181 a.
  • the abutting face 124 is positioned inward of an end edge 126 a of the opening portion 126 in the insertion portion 120 (right side in FIGS. 7 and 8 ), depending on conditions such as the shape of the optical connector to be cleaned, the abutting face 124 may be made to protrude to the side of the insertion direction (left side in FIGS. 7 and 8 ) more than the end edge 126 a of the opening portion 126 .
  • guide grooves 125 A, 125 B, 125 C to guide the tape 12 are provided to oppose each other via the abutting face 124 on the upstream side (here, the top side in FIG. 4 ) and the downstream side (here, the bottom side in FIG. 4 ) in the feeding direction of the tape.
  • These guide groves 125 A, 125 B, 125 C are not essential to the present invention, but function as a tape positioning mechanism.
  • Three pair of the guide grooves 125 A, 125 B, 125 C are provided, corresponding to the tapes 12 , 12 , 12 .
  • the widths of the guide grooves 125 A, 125 B, 125 C fit the widths of the corresponding tapes 12 .
  • the tapes 12 are wrapped around the head member 123 by the upstream side guide grooves 125 A, 125 B, 125 C, the abutting face 124 , and the downstream side guide grooves 125 A, 125 B, 125 C, respectively.
  • the head member 123 has an elastically deformable portion such as a spring portion (not illustrated), and as shown in FIG. 8 , and it is preferable for the abutting face 124 to tilt upward or downward (vertically in FIG. 8 ).
  • a spring portion not illustrated
  • the abutting face 124 tilt upward or downward (vertically in FIG. 8 ).
  • connection end face 161 a abutting force of the connection end face 161 a abutting on the tape 12 is more uniform, and contaminants on the connection end face 161 a can be more securely removed.
  • guide pin insertion holes 122 are formed on the abutting face 124 of the head member 123 on both sides in the width direction of the insertion portion 120 .
  • the guide pin insertion holes 122 are formed to allow the protruding members (guide pins) 165 which protrudes from the connection end face 161 a to be inserted when the head member 123 is inserted into the optical fiber 170 without interference.
  • the guide pins 165 are housed in the guide pin insertion holes 122 provided on the head member 123 , enabling the insertion portion 120 to be housed in the connector housing hole 172 without interference with the guide pins 165 .
  • the connector cleaning guide 140 (guide) is formed in an approximately sleeve shape (tube shape) from plastic, with a plug insertion port 141 (first port) in which the optical plug 160 is inserted made at one end, and an insertion portion insertion port 142 (second port) in which the insertion portion 120 of the cleaning unit 11 is inserted made at the other end opposite the plug insertion port 141 .
  • the plug insertion port 141 and the insertion portion insertion port 142 are interconnected through an internal space 143 of the guide 140 .
  • the optical plug 160 may be one for connection to the optical plug 180 within the connector housing (optical adaptor 170 and the like), but is not particularly limited thereto.
  • the guide 140 can house the distal end portion of the optical plug 160 including the connection end face 161 a and the insertion portion 120 of the cleaning unit 11 in the internal space 143 of the guide 140 in a state of facing each other.
  • the guide 140 is detachably mounted on the insertion portion 120 . More specifically, when cleaning of the optical plug 160 , 180 is not being carried out, as shown in FIGS. 1A and 1B , the guide 140 can be in a state of the insertion portion 120 of the cleaning unit 11 inserted in the insertion portion insertion port 142 .
  • the cap 150 as a lid for blocking the plug insertion port 141 of the guide 140 .
  • the cap 150 shown in FIGS. 6 and 7 has a fitting portion 151 to be fit in the plug insertion port 141 and a knob 152 protruded to the outside (left side in FIGS. 6 and 7 ) opposite the fitting portion 151 .
  • a conventionally used cap can be used as a plug for blocking the connector insertion port 171 of the optical adaptor 170 .
  • Attaching the cap 150 to block the plug insertion port 141 of the guide 140 can inhibit ingress of debris, dust and water and the like into the internal space 143 of the guide 140 , thereby enabling the internal space 143 to be constantly maintained in a clean state.
  • cap 150 To curb loss and the like of the cap 150 , it is convenient to connect the cap 150 to the guide 140 with a hinge or string.
  • the insertion portion 120 of the cleaning unit 11 by inserting the insertion portion 120 of the cleaning unit 11 from the connector insertion port 171 of the optical adaptor 170 , the insertion portion 120 enters the connector housing hole 172 as its outer surface is aligned by the inner walls 170 a of the optical adaptor 170 .
  • the cleaning member 12 By pushing the insertion portion 120 until the step 115 runs into the periphery 171 a of the connector insertion port 171 , the cleaning member 12 is positioned to be abutted on an appropriate position (here, the optical fiber holes and periphery thereof) of the connection end face 181 a of the optical plug 180 .
  • the tape 12 moves in conjunction with the rotation of the take-up reel 131 , and the connection end face 181 a is wiped and cleaned by the tape 12 , with contaminants such as debris, dust and oil adhering to the connection end face 181 a being securely extracted by the tape 12 .
  • connection end face 181 a can be thoroughly cleaned.
  • the insertion portion 120 can be easily removed from the optical adaptor 170 by pulling in the direction opposite to when inserting the cleaning unit 11 (disengagement direction).
  • the insertion portion 120 is positioned in the internal space 143 of the guide 140 by internal walls 140 a of the guide 140 during cleaning as well, wiping and cleaning of the connection end face 181 a of the optical plug 180 by the abutting portion 12 a of the tape 12 can be performed with a uniform pushing pressure without displacement.
  • the insertion portion 120 can be supported in the guide 140 with an extremely light force, and so has excellent operability.
  • the cap 150 is removed from the plug insertion port 141 of the guide 140 .
  • the outer surface of the optical plug 160 advances into the internal space 143 of the guide 140 while being positioned by the internal walls 140 a of the guide 140 .
  • the cleaning tape 12 is positioned to be abutted on an appropriate position (here, the optical fiber holes 161 b and periphery thereof) of the connection end face 161 a of the optical plug 160 .
  • connection end face 161 a of the optical plug 160 and the abutting portion 12 a of the tape 12 of the insertion portion 120 is appropriately guided by the guide 140 , cleaning of the connection end face 161 a of the optical plug 160 in the guide 140 can be easily carried out similarly to the case of the connection end face 181 a of the optical plug 180 in the aforementioned optical adaptor 170 .
  • the plug 160 can be easily removed from the guide 140 by pulling the plug 160 or the cleaning unit 11 in the direction opposite to when inserted in the guide 140 (disengagement direction).
  • a retaining mechanism may be provided on the cleaning unit 11 and/or the guide 140 .
  • connection end face 181 a of the optical plug 180 in the optical adaptor 170 can be cleaned in the state of being housed in the optical adaptor 170 and, by mounting the guide 140 on the insertion portion 120 , the connection end face 161 a of the optical plug 160 outside the optical adaptor 170 can also be cleaned. Since either of the optical plugs 160 , 180 can be cleaned by one type of cleaning tool, the number of articles required for cleaning work can be reduced.
  • the guide 140 By mounting the guide 140 with the attached cap 150 (lid) on the insertion portion 120 , the guide 140 functions as a lid (cap) preventing exposure of the cleaning member 12 from the opening portion 126 of the insertion portion 120 when not in use (cleaning work), thereby preventing contamination of the cleaning member 12 and the like during storage or transport of the cleaning tool 16 .
  • FIG. 11 shows the main portions of the optical connector cleaning tool and connector cleaning guide of the second embodiment of the present invention.
  • those reference numerals that are the same as the reference numerals used in FIGS. 1A through 10 indicate identical or similar constitutions as in the optical connector cleaning tool of the first embodiment, and duplicate explanations will be omitted herein.
  • the optical connector cleaning tool 16 is constituted similarly to the optical connector cleaning tool of the first embodiment, and the internal walls 140 a of the guide body 140 b aligning insertion of the insertion portion 120 and the optical connector plug is also as described above.
  • the lid 153 has a convex portion 153 a facing the plug insertion port 141 , and by fitting the convex portion 153 a to a periphery 141 a of the plug insertion portion 141 it is mounted on the plug insertion portion 141 . Since the hinge 154 can easily deform elastically, opening and closing of the plug insertion port 141 by the lid 153 can be freely performed. According to this kind of optical connector cleaning tool 16 , since the lid 153 is integrated with the connector cleaning guide 140 , loss of the lid 153 is prevented and opening and closing of the lid 153 is also simplified.
  • FIGS. 12A through 14 are views showing the third embodiment of the optical connector cleaning tool of the present invention.
  • FIGS. 12 through 14 those reference numerals that are the same as the reference numerals used in FIGS. 1A through 11 indicate identical or similar constitutions as in the optical connector cleaning tool of the aforementioned first embodiment, and duplicate explanations will be omitted herein.
  • the insertion portion 120 of the cleaning unit 11 used in the optical connector cleaning tool 16 of the third embodiment is provided with a key 120 c in a protruding manner to fit a key groove 172 a on the optical adaptor 170 , thereby blocking reverse insertion in the optical adaptor 170 .
  • the guide 140 has the guide body 140 b formed in an approximately sleeve shape (tube shape) from plastic and the lid 153 connected to one end of the guide body 140 b by the hinge 154 .
  • a fitting hole 153 b that fits a projection 144 provided on the guide body 140 b is formed in the lid 153 , so that by flexing the hinge 154 to fit the fitting hole 153 b of the lid 153 with the projection 144 on the guide body 140 b , the lid 153 can be maintained in a closed state.
  • the end of the lid 153 side of the guide body 140 b has the plug insertion port 141 in which the optical plug 160 is inserted, and the other end opposite the plug insertion port 141 has the insertion portion insertion port 142 in which the insertion portion 120 of the cleaning unit 11 is inserted.
  • the plug insertion port 141 and the insertion portion insertion port 142 are interconnected through the internal space 143 of the guide 140 .
  • the guide 140 can house the distal end portion of the optical plug 160 including the connection end face 161 a and the insertion portion 120 of the cleaning unit 11 in the internal space 143 of the guide 140 in a state of facing each other.
  • projections (ribs) 146 are provided on the inner walls of the insertion portion insertion port 142 of the guide body 140 b .
  • the projections 146 abut or chafe on the outer surface of the insertion portion 120 when inserting the insertion portion 120 in the guide 140 , thereby hindering the guide 140 from coming off the insertion portion 120 (guide retaining mechanism).
  • disadvantages such as the insertion portion 120 falling out of the guide 140 before the plug 160 when pulling the plug 160 from the guide 140 are inhibited, thereby enhancing convenience.
  • a key groove 145 a to fit a key 162 a provided in a protruding manner on the outer surface of the housing 162 of the optical plug 160 is provided on an inner wall on the plug insertion port 141 side of the guide body 140 b .
  • a key groove 145 b to fit a key 120 c provided in a protruding manner on the outer surface of the insertion portion 120 of the cleaning unit 11 is provided on the inner wall of the insertion portion insertion port 142 side of the guide body 140 b.
  • the guide 140 is detachably mounted on the insertion portion 120 . More specifically, when cleaning of the optical plug 160 is not being carried out, the guide 140 can be in a state of the insertion portion 120 of the cleaning unit 11 inserted in the insertion portion insertion port 142 . In addition, as shown by the chain double-dashed line in FIG. 12A , closing the lid 153 that covers up the plug insertion port 141 of the guide 140 can inhibit ingress of debris, dust and water and the like into the internal space 143 of the guide 140 , thereby enabling the internal space 143 to be constantly maintained in a clean state.
  • the insertion portion has formed in a plurality of locations in its protruding direction unit insertion portions which by insertion into different connector housings are to be positioned within the connector housing, each of the unit insertion portions of the insertion portion able to be formed so as to be insertable in all connector housings capable of housing unit insertion portions positioned relatively to the rear in the protruding direction of the insertion portion.
  • the insertion portion can be inserted so as to be positioned with respect to different connector housings by the unit insertion portions, so that, using a single cleaning tool, cleaning of a connection end face of an optical connector in the connector housing can be carried out in compliance with a plurality of types and sizes of connector housing.
  • the insertion portion can be constituted as one in which a plurality of kinds of insertion portions are exchangeable with respect to the tool body. This enables cleaning of the connection end face of an optical connector in a connector housing in compliance with the type and size of the connector housing just by changing the insertion portion without changing the tool body.
  • the driving mechanism for feeding the tape is not limited to one that is manually driven, and may be made to be driven by power from a motor or spring and the like. Also, manual driving and driving by motive power can be made to be used in combination or be switchable as required.
  • the insertion portion is made to completely cover the cleaning member, except for the opening formed at the distal end of the insertion portion, but is not necessarily limited thereto. If the cleaning member is prevented from being contaminated by contact with the inner walls of the connector housing and the like when inserting the insertion portion in the connector housing, the shape or structure is not particularly limited, and does not necessarily need to be sleeve shaped.
  • the connector housing is the optical adaptor 170 allowing insertion of the optical plugs 160 , 180 from both sides thereof, but the present invention is not limited thereto, and may be an optical connector receptacle (receptacle) for optically connecting an optical connector (ferrule) disposed inside of the receptacle with the optical plug 160 inserted therein from one side.
  • connection end face of the optical connector in the optical connector receptacle can be cleaned by inserting the insertion portion into the optical connector receptacle, and the connection end face of the optical plug to be inserted into the optical connector receptacle can be cleaned by inserting the optical plug into a connector cleaning guide and abutting it on the cleaning member of the insertion portion within the guide.
  • the cleaning member is not limited to a cleaning tape, and may for example, be a cotton swab.
  • a retaining mechanism can be provided to hinder the connector cleaning guide from coming off.
  • a guide retaining mechanism is not particularly limited so long as it allows the connector cleaning guide to separate from the cleaning unit and does not inhibit insertion of the insertion portion of the cleaning unit into a connector housing in the state of the connector cleaning guide being detached from the cleaning unit.
  • a mechanism that is able to detachably couple the cleaning unit and the connector cleaning guide by engagement or fitting may be included.
  • a constitution in which the retaining mechanism is provided in the connector cleaning guide by friction or elastic resistance (spring etc.) or the like with respect to the insertion portion is also possible.
  • the optical connector cleaning tool of the aforementioned first through third embodiments can be used for cleaning the end face of an optical component at which the end face of a lightwave circuit (an optical fiber being possible) is disposed.
  • the aforementioned connector cleaning guide can be used as an optical component cleaning guide.
  • the optical fiber arrays may include one serving as an end face by its optical fibers being retained in one or a plurality of positioning grooves such as V-grooves positioned side by side that are formed on a substrate, the positioning grooves extending to at least one end of the substrate, and the end face of the optical fibers being arranged at one end of the substrate.
  • positioning grooves such as V-grooves positioned side by side that are formed on a substrate, the positioning grooves extending to at least one end of the substrate, and the end face of the optical fibers being arranged at one end of the substrate.
  • Various constitutions are also known of optical components having planar lightwave circuits.
  • the optical component cleaning tool of the present invention even in the case of the end face of the optical component being disposed in a recess of a housing or the like, instead of the connection end face of the optical connector, the end face of another optical component, that is the end face of an optical fiber or the end face of a substrate or the like, can be cleaned by a cleaning tape wrapped around a head.
  • FIGS. 15A through 25 are views showing the fourth embodiment of the optical connector cleaning tool of the present invention (hereafter simply referred to as the “cleaning tool”).
  • FIG. 20 is a perspective view corresponding to the state shown in FIG. 18
  • FIG. 21 is a perspective view corresponding to the state shown in FIG. 19 .
  • An optical connector plug 260 (sometimes referred to hereafter simply as an optical plug) and an optical connector adaptor 270 (connector housing. Sometimes referred to hereafter simply as an optical adaptor) to which a cleaning tool 21 of the fourth embodiment is applied are as shown in FIGS. 24 and 25 Multifiber Push-On (MPO) type optical connectors defined according to JIS C 5982.
  • MPO Multifiber Push-On
  • the optical plug 260 is an optical connector plug of a constitution housing a Mechanically Transferable (MT) type optical connector ferrule 261 (hereafter simply referred to as a ferrule) defined according to JIS C 5981 at a distal end portion of a plastic sleeve-shaped housing 262 , with the whole plug being formed in a low profile sectional shape in appearance.
  • MT Mechanically Transferable
  • the direction corresponding to the low-profile, short side (vertical direction in FIG. 24 ) of the optical plug 260 and the ferrule 261 is referred to as the thickness direction
  • the direction corresponding to the long side is referred to as the width direction (horizontal direction in FIG. 24 ).
  • thickness direction and width direction are also similarly used for the optical adaptor 270 connected to the optical plug 260 and an insertion portion 220 of the cleaning tool 21 inserted in the optical adaptor 270 to correspond to the thickness direction and the width direction of the optical plug 260 and the ferrule 261 .
  • optical fiber holes 261 b of a prescribed number are opened so as to be arrayed on a connection end face 261 a of the ferrule 261 .
  • an optical fiber 263 is a four-fiber optical fiber tape ribbon, with optical fibers 263 a having their resin coating removed at the distal end portion thereof (bare optical fibers) inserted into the optical fiber holes 261 b (micro holes) in the ferrule 261 . By doing so they are terminated to be butt-connectable with another optical connector and penetrate the inside of the optical plug 260 to be drawn out from the back end of the optical plug 260 .
  • optical fiber 263 there are no particular limitations to the optical fiber 263 as long as it is suited to termination by the optical plug.
  • an optical fiber cord may be adopted having a single core or multi-core optical fiber core, with this optical fiber core housed in a tube.
  • Guide-pin holes 261 c are provided in the connection end face 261 a of the ferrule 261 on both sides of the outside of the optical fiber holes 261 b in the width direction.
  • Ferrules 261 are aligned with each other to a high degree of accuracy by a positioning mechanism of a widely-known guide-pin fitting system whereby protruding members 265 (guide pins) are provided so as to be inserted into the guide-pin holes 261 c and protrude from the connection end face 261 a , with the end faces of the optical fibers 263 a being connected by butt-coupling.
  • the optical fibers 263 terminated in the ferrules 261 are thus optically connected.
  • the optical adaptor 270 is formed in a sleeve-shape having a connector insertion port 271 on both sides. By inserting the optical plug 260 from the connector insertion port 271 , it can be housed in a connector housing hole 272 formed in the interior of the optical adaptor 270 and continuous with the connector insertion port 271 .
  • the optical plug 260 When the optical plug 260 is inserted from the connector insertion port 271 in the optical adaptor 270 , it is housed in the connector housing hole 272 while displacement in a direction deviating from the insertion direction is restricted.
  • the ferrules 261 When two optical plugs 260 are inserted in the optical adaptor 270 , the ferrules 261 are butted against each other within the optical adaptor 270 , with the optical fibers 263 terminated by the ferrules 261 being thereby optically connected.
  • a coupling 268 is mounted for pressing the elastic engaging pieces from the outside to prevent release of engagement with the engaging recesses when the engaging claws and the engaging recesses are engaged.
  • the optical plug 260 When the optical plug 260 is inserted into the optical adaptor 270 from the connector insertion port 271 , it is housed in the connector housing hole 272 while displacement in a direction deviating from the insertion direction is restricted by the engagement of the engaging recesses and the engaging claws.
  • the cleaning tool 21 capable of being applied to cleaning of the connection end face 261 a of the optical plug 260 is as shown in FIGS. 15A through 17 provided with a roughly case-shaped tool body 210 having a cleaning member 22 housed therein and the insertion portion 220 set to protrude from the tool body 210 and formed to be insertable in the connector housing hole 272 of the optical adaptor 270 .
  • the tool body 210 here is a two-split structure of first and second case half-bodies 211 , 212 made of plastic.
  • the case half-bodies 211 , 212 are constituted to be able to be integrated together by mating fitting pins protrudingly formed on the inner side of the first case half-body 211 with fitting holes set in bosses provided in a protruding manner on the inner side of the second case half-body 212 .
  • this is merely one example of the constitution of the tool body 210 and is not meant to particularly limit the present invention.
  • the cleaning member 22 is here a tape
  • the tape 22 is not particularly limited, and one can be adopted in which a publicly known suitable cleaning fabric (unwoven or woven fabric) is processed into a tape shape.
  • a publicly known suitable cleaning fabric unwoven or woven fabric
  • those made from an extra-fine fiber such as polyester or nylon are exemplified.
  • a tape feeding mechanism that feeds the tape 22 is provided in a storage space 235 of the tool body 210 .
  • This tape feeding mechanism 23 is provided with a supply reel 230 wound with the tape 22 , a take-up reel 231 that takes up and collects the tape 22 after use, and an operation dial 234 that operates the tape 22 .
  • a supply reel support shaft 232 on which the supply reel 230 is rotatably mounted and a take-up reel support shaft 233 on which the take-up reel 231 is rotatably mounted are provided to protrude toward the side of the second case half-body 212 .
  • the tape 22 is stretched in the storage space 235 along pin-shaped tape guides 236 . Midway, it is wound around a head portion 223 , to be described hereinafter, housed in the insertion portion 220 .
  • the operation dial 234 is mounted on the outer circumference of the take-up reel support shaft 233 so as to be concentric with the take-up reel 231 .
  • a portion of the operation dial 234 is exposed to outside the tool body 210 from a window 211 a provided on a side surface of the first case half-body 211 .
  • the radius of the operation dial 234 is greater than the radius of the take-up reel 231 .
  • the length of the tape 22 taken up on the take-up reel 231 is smaller than the amount of operation of the operation dial 234 (displacement amount along the outer circumference of the operation dial 234 ) by just as much as the radial ratio. For this reason, very small feeding amounts of the tape 22 can be easily achieved.
  • the tape feeding mechanism 23 can be driven by operating the operation dial 234 by finger or the like to rotate it in the prescribed direction. More specifically, by rotation of the operation dial 234 , the take-up reel 231 rotates to take up the tape 22 , while the unused tape 22 is unreeled from the supply reel 230 . Since the window 211 a opens to the side surface of the tool body 210 , even if the cleaning tool 21 is held with one hand, the operation dial 234 can be easily operated by a finger of the hand holding the cleaning tool 21 .
  • the cleaning tool 21 is, as shown in FIGS. 15A , 15 B and FIG. 16 , provided with the insertion portion 220 , which is set to protrude from the tool body 210 and formed to be insertable in the optical adaptor 270 .
  • an abutting portion 22 a of the cleaning member 22 (tape) disposed facing an opening portion 226 in the distal end of the insertion portion 220 is positioned to be abuttable against the connection end face 261 a of the optical plug 260 .
  • the tool body 210 tapers toward the insertion portion 220 , with the insertion portion 220 formed at the distal end of a small diameter portion 219 (the left side in FIG. 15A ).
  • the abutting portion 22 a of the tape 22 is the portion positioned on an abutting face 224 of the head portion 223 , with the abutting portion 22 a being replaced along the longitudinal direction of the tape 22 by feeding movement of the tape 22 .
  • a projecting wall 219 a for reinforcing the small diameter portion 219 is provided in the interior of the small diameter portion 219 . Since the path of a cleaning tape 22 b ( 22 ) that should be clean heading from the supply reel 230 to the head portion 223 and the path of a cleaning tape 22 c ( 22 ) that is soiled from wiping and cleaning heading from the head portion 223 to the take-up reel 231 are partitioned by this projecting wall 219 a , it exhibits the effect of suppressing migration of contaminants on the cleaning tape 22 .
  • a step 215 with the tool body 210 side is provided on the insertion portion 220 .
  • This step 215 is for preventing the depth of entry of the insertion portion 220 into the connector housing hole 272 from becoming too deep by the step 215 abutting the periphery 271 a of the connector insertion port 271 in the optical adaptor 270 when the insertion portion 220 is inserted in the connector housing hole 272 of the optical adaptor 270 .
  • the insertion portion 220 is a two-split structure similar to the tool body 210 , being formed by integration of insertion portion half-bodies 220 a , 220 b integrally formed with the case half-bodies 211 , 212 , respectively, accompanying the integration of the case half-bodies 211 , 212 .
  • Engaging recesses 221 formed to be engageable with the engaging claws of the elastic engaging pieces (described above) on the optical adaptor 270 when the insertion portion 220 is inserted in the optical adaptor 270 are formed on both sides in the width direction of the outer surface of the insertion portion 220 . Since front edge portions 221 a of the engaging recesses 221 (edge portions on the side near the distal end of the insertion portion 220 , on the left side in FIG. 23 ) are oblique faces, in the state of the engaging claws of the optical adaptor 270 engaged with the engaging recesses 221 , when the insertion portion 220 is pulled out in the disengagement direction (toward the upper right in FIG. 23 ), the engaging claws overcome the front edge portions 221 a so as to disengage from the engaging recesses 221 with comparatively little force.
  • a tape abutting mechanism 24 for causing the tape 22 to abut the connection end face 261 a of the ferrule 261 is disposed in the insertion portion 220 .
  • the tape abutting mechanism 24 includes the head portion 223 having the abutting face 224 disposed facing the connection end face 261 a and a head tilting mechanism 240 that tilts the abutting face 224 of the head portion 223 so that the abutting face 224 can change the direction of the tape 22 with respect to the insertion direction in the state of the insertion portion 220 of the cleaning tool 21 being inserted in the optical adaptor 270 .
  • the abutting face 224 is provided on the side of the insertion direction of the head portion 223 (the left side in FIGS. 18 and 19 ). As shown in FIG. 22 , the abutting face 224 is of an approximately rectangular shape, and during insertion of the head portion 223 into the optical adaptor 270 , the protruding members (guide pins) 265 protruding from the connection end face 261 a are inserted, and guide pin insertion holes 222 , 222 are formed on both sides in the width direction of the insertion portion 220 as recesses for avoiding interference with the guide pins 265 .
  • the abutting face 224 is positioned inward of an end edge 226 a of the opening portion 226 in the insertion portion 220 (right side in FIGS. 18 and 19 ).
  • the abutting face 224 may be made to protrude to the side of the insertion direction (left side in FIGS. 18 and 19 ) more than the end edge 226 a of the opening portion 226 .
  • guide grooves 225 A, 225 B, 225 C to guide the tape 22 are provided on the head portion 223 to oppose each other via the abutting face 224 .
  • These guide groves 225 A, 225 B, 225 C function as a tape positioning mechanism in the present invention.
  • a tape positioning mechanism it is not limited thereto, and various constitutions could be adopted such as guide walls for guiding and the like.
  • they may be provided in the insertion portion as a tape positioning mechanism, but there are no limitations on the setting position in the insertion portion, and they do not necessarily always need to be provided in the head portion.
  • the tape 22 (cleaning tape) is one in which two parallel slits S 1 , S 2 are formed over the entire longitudinal length of one tape-shaped cleaning fabric except at both longitudinal ends, with a total of three contact cleaning portions 22 A, 22 B, 22 C being formed, separated by the two slits S 1 , S 2 .
  • the slits function as protruding member escape portions.
  • the three contact cleaning portions 22 A, 22 B, 22 C consist of the one 22 A disposed in the central portion in the width direction (longitudinal direction in FIG. 22 ) of the tape insertion portion 220 , and those 22 B, 22 C disposed on both side portions in the width direction of the insertion portion 220 .
  • Three pair of the guide grooves 225 A, 225 B, 225 C are provided, corresponding respectively to the contact cleaning portions 22 A, 22 B, 22 C.
  • the widths of the guide grooves 225 A, 225 B, 225 C fit the widths of the contact cleaning portions 22 A, 22 B, 22 C.
  • the contact cleaning portions 22 A, 22 B, 22 C are wrapped around the head portion 223 by the upper side guide grooves 225 A, 225 B, 225 C, the abutting face 224 , and the lower side guide grooves 225 A, 225 B, 225 C, respectively.
  • the guide pin insertion holes 222 , 222 are disposed so as to open between the contact cleaning portions 22 A, 22 B, 22 C guided by the guide grooves 225 A, 225 B, 225 C.
  • the guide pins 265 can thereby be inserted in the guide pin insertion holes 222 , 222 , passing between the contact cleaning portions 22 A, 22 B, 22 C to avoid interference with the contact cleaning portions 22 A, 22 B, 22 C.
  • the head tilting mechanism 240 has a pair of slide portions 241 a , 241 b disposed parallel to each other to extend approximately in the direction of insertion and separation (left and right in FIGS. 18 and 19 ) of the insertion portion 220 , one end thereof being coupled by thin elastic deformation portions 242 , 242 to a back face 227 of the head portion 223 opposite the abutting face 224 , a coupling portion 244 coupling the other end of the slide portions 241 a , 241 b opposite the head portion 223 via elastic deformation portions 243 , 243 , and a guide portion 245 that guides so that the slide portions 241 a , 241 b slide and displace in the extending directions thereof.
  • the coupling portion 244 has a movement restriction portion (stopper) 246 that restricts movement of the insertion portion 220 in both the insertion direction and the separation direction in the opposite direction thereto, and a bridging portion 248 that bridges the slide portions 241 a , 241 b in the thickness direction of the insertion portion 220 (vertical direction in FIGS. 18 and 19 ).
  • the bridging portion 248 is also elastically deformable (elastic deformation portion) with respect to displacement of the slide portions 241 a , 241 b.
  • the slide portions 241 a , 241 b are respectively coupled to the upper side and lower side (upper and lower in FIGS. 18 and 19 ) of the back face 227 of the head portion 223 , corresponding to top end edge 224 a and bottom end edge 224 b of the abutting face 224 of the head portion 223 .
  • the head portion 223 , the pair of slide portions 241 a , 241 b and the coupling portion 244 constitute a square frame-shaped component 247 (head composite body).
  • the head portion 223 , the slide portions 241 a , 241 b , the coupling portion 244 , the elastic deformation portions 242 , 242 , 243 , 243 , and the bridging portion 248 become the head composite body 247 integrally formed from plastic or the like.
  • the head composite body 247 is held in the insertion portion 220 by inserting the guide 245 and the stopper 246 in a space 249 between the slide portions 241 a , 241 b and a stopper insertion hole 244 a.
  • the guide 245 has an approximately rectangular sectional shape, and is provided in the width direction of the insertion portion 220 between the pair of slide portions 241 a , 241 b in a manner protruding from an inner wall 228 disposed in the width direction of the insertion portion 220 (the direction perpendicular to the sheet of FIGS. 18 and 19 ).
  • the stopper 246 has an approximately round sectional shape, and is provided in a manner protruding from the inner wall 228 disposed in the width direction of the insertion portion 220 .
  • a stopper insertion hole 244 a is formed in the coupling portion 244 between the portions coupled with the elastic deformation portions 243 , 243 . The stopper 246 is inserted into the stopper insertion hole 244 a.
  • Displacement of the coupling portion 244 in the insertion direction and separation direction of the insertion portion 220 is restricted by the stopper 246 , so that it essentially hardly displaces in either direction.
  • the head tilting mechanism 240 is disposed between the tape 22 ( 22 b ) on the supply reel 230 side of the head portion 223 and the tape 22 ( 22 c ) on the take-up reel 231 side of the head portion 223 .
  • the head portion 223 can thereby be stably tilted without inhibiting the feeding movement of the tape 22 .
  • Recesses 250 are formed at locations on the coupling portion 244 near the tape 22 (the top and bottom surfaces of the coupling portion 244 , top and bottom in FIGS. 18 and 19 ) in order to avoid interference with the tape 22 .
  • the recesses 250 are provided at three places ( 250 A, 250 B, 250 C) corresponding to the guide grooves 225 A, 225 B, 225 C to the rear (in the disengagement direction of the insertion portion 220 . Toward the upper right in FIGS. 20 and 21 ) of the guide grooves.
  • the head composite body 247 is deformable by the elasticity of the elastic deformation portions 242 , 242 , 243 , 243 and the bridging portion 248 and is constituted so as to allow tilting of the abutting face 224 of the head portion 223 with respect to a pushing force on the abutting face 224 of the head portion 223 . More specifically, by an uneven pressing force acting on the top end edge 224 a and the bottom end edge 224 b with respect to the abutting face 224 of the head portion 223 , the slide portions 241 a , 241 b displace in the insertion direction and separation direction of the insertion portion 220 , so that the abutting face 224 is allowed to tilt.
  • the direction of the abutting face 224 of the head composite body 247 does not change by such an extent that would exert an adverse effect on cleaning by friction acting between the tape 22 and the head portion 223 when the tape 22 is fed in the feeding direction.
  • the threshold value of the pressing force allowing tilting of the abutting face 224 is adjustable by the ease of elastic deformation of the elastic deformation portions 242 , 242 , 243 , 243 and the presence or absence of the bridging portion 248 . that is, the bridging portion 248 is not essential.
  • a cap or cover and the like for protecting the head portion 223 and the tape 22 facing the opening portion 226 may of course be attached to the distal end of the insertion portion 220 to be able to protect the tape 22 and the like when the cleaning tool 21 is not in use.
  • the insertion portion 220 of the cleaning tool 21 By inserting the insertion portion 220 of the cleaning tool 21 from the connector insertion port 271 of the optical adaptor 270 , the insertion portion 220 enters the connector housing hole 272 as its outer surface is aligned by the inner walls 270 a of the optical adaptor 270 .
  • the cleaning member 22 By pushing the insertion portion 220 until the step 215 runs into the periphery 271 a of the connector insertion port 271 , the cleaning member 22 is positioned to be abutted on an appropriate position (here, the optical fiber holes 261 b and periphery thereof) of the connection end face 261 a of the optical plug 260 .
  • the guide pins 265 protrude on the connection end face 261 a of the optical plug 260 , the guide pins 265 are housed in the guide pin insertion holes 222 provided on the head portion 223 , enabling the insertion portion 220 to be housed in the connector housing hole 272 without interference with the guide pins 265 .
  • the tape 22 moves in conjunction with the rotation of the take-up reel 231 , and since the connection end face 261 a is wiped and cleaned by the tape 22 , contaminants such as debris, dust and oil adhering to the connection end face 261 a are reliably extracted by the tape 22 .
  • connection end face 261 a can be thoroughly cleaned.
  • the insertion portion 220 can be easily removed by pulling in the direction opposite to when inserting the cleaning tool 21 (disengagement direction).
  • connection end face 261 a can abut the tape 22 with a uniform abutting force, and can smoothly advance the tape 22 . Accordingly, cleaning can be reliably performed so that contaminants do not remain on the connection end face 261 a.
  • the tape 22 makes no contact with inner walls 229 a , 229 b (upper and lower inner walls in FIGS. 18 and 19 ) of the insertion portion 220 in the tilting direction of the head portion 223 .
  • the head portion 223 is able to tilt with respect to the pushing force when the abutting face 224 abuts the connection end face 261 a of the optical plug 260 , even in the event of the ferrule 261 with a perpendicularly polished connection end face 261 a as shown in FIG. 18 being abutted, and even in the event of the ferrule 261 with an obliquely polished connection end face 261 a as shown in FIG. 19 being abutted, the direction of the abutting face 224 is aligned with the direction of the connection end face 261 a , and the tape 22 on the abutting face 224 can be more uniformly and securely made to abut the connection end face 261 a.
  • the abutting face 224 of the head tilting mechanism 240 does not substantially displace vertically in the tilting direction thereof (up and down direction in FIGS. 18 and 19 ), the tape 22 not making good contact with the connection end face 261 a due to shifting of the center positions of the connection end face 261 a of the optical plug 260 and the abutting face 224 of the head portion 223 , and the abutting force of the connection end face 261 a abutting the tape 22 becoming uneven is inhibited, thereby enabling more secure removal of contaminants on the connection end face 261 a.
  • the insertion portion 220 is positioned by the connector housing hole 272 of the optical adaptor 270 during cleaning as well, wiping and cleaning of the connection end face 261 a can be performed by the tape 22 with a uniform pushing pressure without displacement.
  • the insertion portion 220 can be supported in the optical adaptor 270 with an extremely light force, and so has excellent operability.
  • a cleaning tape 2201 shown in FIGS. 28A and 28B is one in which two parallel slits S 11 , S 12 are formed over the entire longitudinal length of one tape-shaped cleaning fabric 2201 a , with a total of three contact cleaning portions 2201 A, 2201 B, 2201 C being formed separated by the two slits S 11 , S 12 , and moreover the three contact cleaning portions 2201 A, 2201 B, 2201 C are integrated by a coupling film 2201 b that is joined and integrated so as to laminate the cleaning fabric 2201 a .
  • the interval between adjacent contact cleaning portions is linked only by the coupling film 2201 b .
  • the coupling film 2201 b could serve as the coupling film 2201 b , however, it should be easily broken by the guide pins 265 protruding from the ferrule 261 being pressed thereagainst, be able to pass the guide pins 265 , and have a weaker breaking strength compared to the contact cleaning portions 2201 A, 2201 B, 2201 C. Portions of the coupling film 2201 b positioned between adjacent contact cleaning portions, that is, the portions positioned in areas exposed in the slits S 11 , S 12 , function as protruding member escape portions and easily breakable portions.
  • the three contact cleaning portions 2201 A, 2201 B, 2201 C can respectively function as the one 2201 A disposed in the central portion in the width direction (longitudinal direction in FIG. 22 ) of the tape insertion portion 220 , and those 2201 B, 2201 C disposed on both side portions in the width direction of the insertion portion 220 .
  • the coupling film is not limited to the constitution bonded across all three contact cleaning portions 2201 A, 2201 B, 2201 C as illustrated in FIGS. 28A and 28B , and may exist only at the places of slits S 11 , S 12 to carry out the function of coupling adjacent contact cleaning portions.
  • the slits S 11 , S 12 may be narrower than the diameter of the guide pins, in which case the contact cleaning portions contact from both sides the guide pins that have passed though the coupling film as an easily breakable portion, and can thereby also clean the guide pins themselves.
  • the protruding base end portion of the guide pins from the connection end face can also be uniformly and effectively cleaned over the entire circumference in the circumferential direction of the guide pins.
  • a cleaning tape 2202 shown in FIGS. 29A and 29B is one in which concavity forming portions 2202 a formed concavely at two places of the cleaning material are formed parallel in the width direction over the entire longitudinal length of one tape-shaped cleaning fabric, having a total of three contact cleaning portions 2202 A, 2202 B, 2202 C separated by the concavity forming portions 2202 a .
  • the concavity forming portions 2202 a include therein protruding member housing grooves 2202 b capable of housing the protruding member on the inside thereof, and function as protruding member escape portions.
  • the concavity forming portions 2202 a and the protruding member housing grooves 2202 b are continuously formed along the longitudinal direction of the cleaning tape 2202 .
  • FIGS. 30A and 30B show an example of a head portion 223 A to which the cleaning tape 2202 is applied.
  • This head portion 223 A differs from the aforementioned head portion 223 explained with reference to FIG. 23 on the point of formed portion guide grooves 224 d for housing and guiding the concavity forming portions 2202 a continuously formed along the longitudinal direction of the cleaning tape 2202 being formed across the abutting face 224 along the extending direction of the cleaning tape 2202 disposed across the abutting face 224 , with feeding of the cleaning tape 2202 stabilizing.
  • the central region and the outside regions can be efficiently cleaned simultaneously.
  • FIG. 31A is a front view showing an example of a take-up reel used in the cleaning tool according to the fifth embodiment
  • FIG. 31B is a half sectional view thereof
  • FIG. 32 is a cutaway perspective view of the take-up reel shown in FIGS. 31A and 32A .
  • FIG. 33A is a front view showing an example of the supply reel
  • FIG. 33B is a perspective view thereof.
  • FIG. 34 is a partial sectional view showing the state of the supply reel shown in FIGS. 33A and 33B mounted on the supply reel support shaft.
  • FIG. 35A is a front view showing an example of the dial, and FIG. 35B is a half sectional view thereof.
  • FIG. 36 is a front view showing an example of the first case half-body
  • FIG. 37 is a perspective view of the first case half-body shown in FIG. 36 .
  • FIG. 38 is a front view showing an example of the second case half-body
  • FIG. 39 is a perspective view of the first case half-body shown in FIG. 38 .
  • FIG. 40A is a front view showing an overview of the optical connector cleaning tool according to the fifth embodiment and FIG. 40B is a perspective view thereof.
  • FIGS. 41 and 42 are sectional views showing the inside of the optical connector cleaning tool according to the fifth embodiment.
  • FIGS. 43A through 43D are views explaining the operation of a rotation amount notification mechanism.
  • a cleaning tool 2301 according to the fifth embodiment is provided with a tool body 2310 that tapers toward an insertion portion 2320 , and the insertion portion 2320 formed at the distal end (left side in FIG. 41 ) of a small diameter portion 2319 of the tool body 2310 , being constituted generally similar to the cleaning tool 21 according to the aforementioned fourth embodiment.
  • a projecting wall 2319 a for reinforcing the small diameter portion 2319 is provided in the interior of the small diameter portion 2319 .
  • This projecting wall 2319 a partitions the path of the upstream side portion 2302 b of cleaning tapes 2302 A to 2302 C that should be clean (hereafter referred to as the “upstream portion”) heading from supply reels 2340 A to 2340 C to a head portion 2323 , and the path of the downstream side portion 2302 c of the cleaning tapes 2302 A to 2302 C soiled from wiping and cleaning (hereafter referred to as the “downstream portion”) heading from the head portion 2323 toward the take-up reel 2350 .
  • the cleaning tapes 2302 A, 2302 B, 2302 C three mutually separated tapes are employed, with one cleaning a central region E 1 that is a portion positioned between guide pin holes 261 c and those cleaning outside regions E 2 , E 2 positioned outside the central region E 1 via the guide pin holes 261 c within the connection end face 261 a of the optical connector shown in FIG. 24 .
  • the tapes 2302 A, 2302 B, 2302 C are not particularly limited, and ones can be adopted in which a publicly known suitable cleaning fabric (unwoven or woven fabric) is processed into a tape shape. For example, those made from an extra-fine fiber such as polyester or nylon are exemplified.
  • the structure is also generally one with a roughly fixed width.
  • the widths of the tapes 2302 A, 2302 B, 2302 C are made to match the width of the region to be cleaned.
  • the width of the tape 2302 A that cleans the central region E 1 is wider than the widths of the tapes 2302 B, 2302 C that clean the outside regions E 2 .
  • the three tapes 2302 A, 2302 B, 2302 C respectively function as contact cleaning portions.
  • Protruding member escape portions are gaps 2305 between the tape 2302 A and the tape 2302 B and between the tape 2302 A and tape 2302 C.
  • the aforementioned constitution can be employed as a tape abutting mechanism (not illustrated) including the head portion 2323 .
  • the tool body 2310 is a two-split structure of first and second case half-bodies 2311 , 2312 made of plastic.
  • the case half-bodies 2311 , 2312 are constituted to be able to be integrated together by the mating of fitting pins 2313 with fitting holes 2314 .
  • a tape feeding mechanism 2303 that feeds the tapes 2302 A to 2302 C is provided in a storage space 2335 in the tool body 2310 .
  • This tape feeding mechanism 2303 includes the supply reels 2340 A to 2340 C wound with the tapes 2302 A to 2302 C, take-up reel 2350 that takes up and collects the tapes 2302 A to 2302 C after use, and an operation dial 2360 that operates the tapes 2302 A to 2302 C.
  • a supply reel support shaft 2332 on which the supply reels 2340 A to 2340 C are rotatably mounted and a take-up reel support shaft 2333 on which the take-up reel 2350 is rotatably mounted are provided to protrude toward the first case half-body 2311 .
  • Through holes 2337 , 2338 are formed in the first case half-body 2311 at positions meeting the supply reel support shaft 2332 and the take-up reel support shaft 2333 on the second case half-body 2312 . More specifically, by fitting the distal end portions of the supply reel support shaft 2332 and the take-up reel support shaft 2333 into the through holes 2337 , 2338 , the supply reel support shaft 2332 and the take-up reel support shaft 2333 can bridge the space between the first case half-body 2311 and the second case half-body 2312 to retain the supply reels 2340 A to 2340 C and the take-up reel 2350 without dropping them.
  • Ratchet grooves 2332 a extending in the axial direction of the supply reel support shaft 2332 are provided around the outer circumference of the supply reel support shaft 2332 . These ratchet grooves 2332 a have an approximately semi-circular cross section and are able to engage with a projection 2345 (described hereinafter) on a ratchet arm 2344 of the supply reels 2340 A to 2340 C.
  • tapes 2302 A to 2302 C are stretched in the storage space 2335 along pin-shaped tape guides 2336 , midway being wound around a head portion 2323 (see FIG. 40B ) housed in the insertion portion 2320 .
  • the head portion 2323 is disposed facing an opening portion 2326 in the protrusion distal end from the tool body 2310 of the insertion portion 2320 .
  • the tape guides 2336 are pins provided in a protruding manner from the second case half-body 2312 , with the distal end portions of the pins being fit into fitting holes 2336 a formed on the side surface of the first case half-body 2311 .
  • the operation dial 2360 is mounted on the outer circumference of the take-up reel support shaft 2333 so as to be concentric with the take-up reel 2350 .
  • the operation dial 2360 is one in which a hub portion 2361 that is penetratingly installed in the take-up reel support shaft 2333 , a rim portion 2363 that has a knurled surface on its periphery, and a plurality of spoke portions 2362 connecting the hub portion 2361 and the rim portion 2362 are integrally formed from plastic and the like.
  • a gear 2364 is integrally formed on the rim portion 2363 .
  • a ratchet arm 2365 having an engaging claw 2366 at the distal end thereof is disposed on one of the spoke portions 2362 .
  • the ratchet arm 2365 is elastically deformable.
  • a portion of the operation dial 2360 is exposed to outside the tool body 2310 from a window 2310 a provided on a side surface of the tool body 2310 and can be rotated by operating in the prescribed feeding direction (clockwise in FIG. 41 ) by finger or the like.
  • the tape feeding mechanism 2303 is driven by rotation of the operation dial 2360 .
  • Shoulders 2316 , 2317 are formed at the base of the supply reel support shaft 2332 and the take-up reel support shaft 2333 .
  • a plurality of ratchet teeth 2316 a are provided on the peripheral face of the shoulder 2316 on the supply reel support shaft 2332 side.
  • the engaging claw 2366 on the ratchet arm 2365 of the operation dial 2360 is attached so as to be able to engage the ratchet teeth 2316 a and block reverse rotation of the operation dial 2360 .
  • the ratchet teeth 2316 a and the ratchet arm 2365 function as a reverse-feed blocking mechanism 2306 to block reverse feeding of the tapes 2302 A to 2302 C (a reverse-rotation prevention mechanism to prevent reverse rotation of the take-up reel).
  • the tapes 2302 A to 2302 C are stably fed in the prescribed direction, which can suppress slack in the tapes 2302 A to 2302 C.
  • the same number (here, three) of supply reels 2340 A, 2340 B, 2340 C are provided as the number of cleaning tapes 2302 A, 2302 B, 2302 C, and they are supported side by side by the supply reel support shaft 2332 .
  • FIGS. 33A and 33B show an example of the supply reel 2340 A wound with the tape 2302 A.
  • the supply reel 2340 A is one in which a hollow cylindrical winding core portion 2341 and side plate portions 2342 , 2342 formed on both ends of the winding core portion 2341 are integrally formed from plastic or the like.
  • One tape 2302 A is wound around the supply reel 2340 A.
  • the spacing between the two side plate portions 2342 , 2342 is set to match the width of the tape 2302 A wound therearound.
  • the supply reels 2340 B, 2340 C wound with the tapes 2302 B, 2302 C are similar to the supply reel 2340 A of FIGS. 33A and 33B except for the spacing between the two side plate portions 2342 , 2342 being narrower to match the width of the tapes 2302 B, 2302 C, and so illustration of their specific constitutions is omitted.
  • the ratchet arm 2344 is formed on the inner surface of the winding core portion 2341 of the supply reels 2340 A to 2340 C.
  • the approximately semi-cylindrical projection 2345 is formed at the distal end of the ratchet arm 2344 facing the center in the radial direction of the supply reels 2340 A to 2340 C.
  • a concave portion 2346 is formed on the inner surface of the winding core portion 2341 so as to accommodate the ratchet arm 2344 .
  • the ratchet arm 2344 is able by elastic deformation to allow the projection 2345 to oscillate in the radial direction of the supply reels 2340 A to 2340 C.
  • the projection 2345 of the ratchet arm 2344 engages with the ratchet grooves 2332 a when the supply reels 2340 A to 2340 C are supported on the supply reel support shaft 2332 .
  • the projection 2345 repeatedly engages and disengages with the ratchet grooves 2332 a due to elastic deformation of the ratchet arm 2344 , thereby imparting rotation resistance to rotation of the supply reel 2340 A.
  • a constant tension force is required for the feeding movement of the tapes 2302 A to 2302 C, whereby slippage of the supply reels 2340 A to 2340 C is minimized.
  • the ratchet arm 2344 of the supply reels 2340 A to 2340 C and the projection 2345 of the supply reel support shaft 2332 function as a rotation resistance imparting mechanism 2308 that imparts rotation resistance to rotation of the supply reels 2340 A to 2340 C.
  • the constant tension force permitting the feeding movement of the tapes 2302 A to 2302 C is to an extent such that stretching of the tape due to tensioning by the tape feeding mechanism 2303 does not exert an adverse effect on cleaning, and such that the tape cannot be fed just by swinging or carrying the cleaning tool 2301 .
  • the take-up reel 2350 is one in which a hollow cylindrical winding core portion 2351 , side plate portions 2352 , 2353 formed on both ends of the winding core portion 2351 , partition plate portions 2354 , 2354 formed between the both side plate portions 2352 , 2353 are integrally formed from plastic or the like.
  • the side plate portions 2352 , 2353 and the partition plate portions 2354 , 2354 are approximately disk-shaped concentric with the winding core portion 2351 .
  • the partition plate portions 2354 , 2354 divide the area between both side plate portions 2352 , 2353 into three, with the tapes 2302 A to 2362 C being wound in the spaces thus partitioned.
  • a gear 2355 is integrally formed on the side portion of one side plate portion 2352 . This gear 2355 is meshed with the gear 2364 of the operation dial 2360 . These gears 2355 , 2364 transmit driving force due to rotating operation of the operation dial 2360 to the take-up reel 2350 , and function as a driving force transmission mechanism 2339 for taking up the tape 22 .
  • the cleaning tool 2301 of the fifth embodiment is provided with a feeding amount notification mechanism 2307 that notifies the feeding amount of the tapes 2302 A to 2302 C.
  • the feeding amount notification mechanism 2307 is constituted by stranding projections 2372 of an annular wall portion 2370 and a hammer portion 2357 of the take-up reel 2350 .
  • the annular wall portion 2370 is formed on the inner surface of the first case half-body 2311 , incorporating the through hole 2338 in which the take-up reel support shaft 2333 is fitted.
  • a plurality of stranding projections 2372 are formed at regular intervals along the periphery of the annular wall portion 2370 on the outer circumference of the annular wall portion 2370 .
  • the stranding projections 2372 have inclined faces 2372 a forming an acute angle with an outer circumferential surface 2371 of the annular wall portion 2370 .
  • the inclined faces 2372 a are provided on the side of the stranding projections 2372 facing the rotation direction of the take-up reel 2350 (the counterclockwise rotation direction in FIGS. 43A to 43D ).
  • the hammer portion 2357 is provided on the outer surface 2353 a of the other side plate portion 2353 of the take-up reel 2350 , and has an arm portion 2357 a extending along the periphery of the side plate portion 2353 and a hammerhead portion 2357 b formed at the distal end of the arm portion 2357 a .
  • a concave groove portion 2356 recessed to the hammerhead portion 2357 b is formed on the outer surface 2353 a of the other side plate portion 2353 .
  • a hitting face 2357 c of the hammerhead portion 2357 b is positioned in the concave groove portion 2356 that is interior to the outer surface 2353 a of the side plate portion 2353 .
  • the arm portion 2357 a is swung slightly outward from the outer surface 2353 a of the side plate portion 2353 , and the hitting face 2357 c of the hammerhead portion 2357 b abuts the outer surface 2371 of the annular wall portion 2370 .
  • the feeding amount of the tapes 2302 A to 2302 C corresponding to one slapping sound can be made to serve as the feeding amount required for one cleaning of an optical connector.
  • multiple slapping sounds can be made to serve as the feeding amount corresponding to one cleaning of an optical connector. Operation is also possible by suitably changing the number of slapping sounds corresponding to one cleaning of an optical connector in accordance with the degree of dirtiness of the optical connector.
  • the method of cleaning an optical connector using the cleaning tool 2301 of the fifth embodiment is as described hereinabove.
  • the feeding amounts of each cleaning tape 22 can be made to mutually differ. Accordingly, even if the elongation differs depending on width and strength of the tapes, the tensions of the tapes 2302 A, 2302 B, 2302 C can be uniformly maintained to enable stable feeding of the tapes 2302 A, 2302 B, 2302 C.
  • feeding amount notification mechanism 2307 that notifies the feeding amount of the tapes 2302 A, 2302 B, 2302 C is provided, feeding the tapes 2302 A, 2302 B, 2302 C only required for cleaning is easy, reliable cleaning can be carried out, and wasteful usage of the tape 22 can be suppressed.
  • a slack prevention mechanism constituted from a reverse-feed blocking mechanism 2306 to prevent reverse feeding of the tapes 2302 A, 2302 B, 2302 C and a rotation resistance imparting mechanism 2308 that imparts rotation resistance to the supply reels 2340 A to 2340 C, even in the case of the tapes 2302 A to 2302 C being a plurality, the tapes 2302 A to 2302 C can be stably fed in the prescribed direction, and fluctuations in the tape feeding amount and the like can be suppressed. Accordingly, tape slack is prevented and constant cleaning conditions are maintained so that reliable wiping and cleaning can be carried out.
  • connection end face 261 a of the optical connector can be more reliably cleaned.
  • a stopper it is not necessary for a stopper to be inserted in a stopper insertion hole formed in the coupling portion.
  • displacement in the insertion direction and separation direction of the insertion portion 220 can be limited even by disposing stoppers 246 a , 246 b provided in a protruding manner from the inner wall 228 disposed in the width direction of the insertion portion 220 so as to sandwich the front and rear of the coupling portion 244 (places in the coupling portion 244 positioned in the insertion direction and separation direction of the insertion portion 220 . Left and right in FIG. 26 ).
  • receiving portions 244 b , 244 b are provided in the coupling portion 244 for smooth contact with the stoppers 246 a , 246 b , however, they are not necessary in the fourth and fifth embodiments.
  • a constitution of the head tilting mechanism is also possible that retains the head portion by means of an elastic body such as a spring connected to the rear face of the head portion and biasing it so that the opposed both end edges of the abutting face of the head portion can displace by differing amounts of displacement in the insertion direction and separation direction of the insertion portion. Even by such a constitution, tilting of the head portion can be allowed by elastic deformation of the elastic body.
  • an elastic body such as a spring connected to the rear face of the head portion and biasing it so that the opposed both end edges of the abutting face of the head portion can displace by differing amounts of displacement in the insertion direction and separation direction of the insertion portion.
  • unit insertion portions which, by insertion into different connector housings, are to be positioned within the connector housing are formed at a plurality of locations in the protruding direction of the insertion portion, and the unit insertion portions of the insertion portion may be formed so as to be insertable in all of connector housings capable of housing the unit insertion portions positioned relatively to the rear in the protruding direction of the insertion portion.
  • the insertion portion can be inserted so as to be positioned with respect to different connector housings by the respective unit insertion portions, so that, using a single cleaning tool, cleaning of a connection end face of an optical connector in the connector housing can be carried out in compliance with a plurality of types and sizes of connector housing.
  • the insertion portion can be constituted as one in which a plurality of kinds of insertion portions are exchangeable with respect to the tool body. This enables cleaning of the connection end face of an optical connector in a connector housing in compliance with the type and size of the connector housing just by changing the insertion portion without changing the tool body.
  • the driving mechanism for feeding the tape is not limited to one that is manually driven, and may be made to be driven by power from a motor or spring and the like. Also, manual driving and driving by motive power can be made to be used in combination or be switchable as required.
  • the insertion portion is made to completely cover the cleaning member, except for the opening formed at the distal end of the insertion portion, but is not necessarily limited thereto. If the cleaning member is prevented from being contaminated by contact with the inner walls of the connector housing and the like when inserting the insertion portion in the connector housing, the shape or structure is not particularly limited, and does not necessarily need to be sleeve shaped.
  • rotation resistance imparting mechanism that imparts rotation resistance to the supply reel
  • it is not limited to a mechanism that imparts rotation resistance to between the winding core portion of the supply reel and the supply reel support shaft.
  • rotation resistance can also be imparted to the periphery of the supply reel.
  • the supply reel support shaft rotates in conjunction with the supply reel, a constitution is also possible that imparts rotation resistance to the supply reel support shaft.
  • method of imparting rotation resistance it is not limited to the elastic force of the ratchet arm, with that due to contact friction obtained by roughening the contact face or viscosity resistance from a viscous body such as grease also being possible.
  • the cleaning tape of the present invention As another constitutive example of the cleaning tape of the present invention, as a modification of the tape 22 shown in FIGS. 27A and 27B , it is also possible to adopt the constitution of a cleaning tape in which one end of the slits S 1 , S 2 is cut through until one end of the cleaning fabric, and only at the other end of the slits S 1 , S 2 is the cleaning tape connected.
  • This type of tape as shown in FIG. 42 and the like, can be used for a cleaning tool in which there is one take-up reel and a plurality of supply reels. By winding the ends of the side at which the contact cleaning portion is divided around a plurality of different supply reels and supplying to the head portion, as the feeding amounts of the cleaning tapes mutually differ, tape slack and the like can be suppressed.
  • the cleaning tool of the aforementioned fourth and fifth embodiments can be used for cleaning the end face of an optical component at which the end face of a lightwave circuit (an optical fiber being possible) is disposed.
  • the optical fiber arrays may include one serving as an end face by its optical fibers being retained in one or a plurality of positioning grooves such as V-grooves positioned side by side that are formed on a substrate, the positioning grooves extending to at least one end of the substrate, and the end face of the fibers being arranged at one end of the substrate.
  • Various constitutions are also known of optical components having planar lightwave circuits.
  • the end face of the optical component being disposed in a recess of a housing or the like, the end face of the optical fiber and the end face of a substrate or the like can be cleaned by a cleaning tape wrapped around a head.
  • FIGS. 45A to 55 are views showing the sixth embodiment of the optical connector cleaning tool of the present invention (hereafter simply referred to as the “cleaning tool”).
  • FIG. 50 is a perspective view corresponding to the state shown in FIG. 48
  • FIG. 51 is a perspective view corresponding to the state shown in FIG. 49 .
  • FIGS. 50 and 51 illustrate only one side of the insertion portion 320 in the width direction.
  • An optical connector plug 360 (sometimes referred to hereafter simply as an optical plug) and an optical connector adaptor 370 (connector housing. Sometimes referred to hereafter simply as an optical adaptor) to which a cleaning tool 31 of the sixth embodiment is applied are as shown in FIGS. 54 and 55 Multifiber Push-On (MPO) type optical connectors defined according to JIS C 5982.
  • MPO Multifiber Push-On
  • the optical plug 360 is an optical connector plug of a constitution housing a Mechanically Transferable (MT) type optical connector ferrule 361 (hereafter simply referred to as a ferrule) defined according to JIS C 5981 at a distal end portion of a plastic sleeve-shaped housing 362 , with the whole plug being formed in a low profile sectional shape in appearance.
  • MT Mechanically Transferable
  • the direction corresponding to the low-profile, short side (vertical direction in FIG. 54 ) of the optical plug 360 and the ferrule 361 is referred to as the thickness direction
  • the direction corresponding to the long side is referred to as the width direction (horizontal direction in FIG. 54 ).
  • thickness direction and width direction are also similarly used for the optical adaptor 370 connected to the optical plug 360 and an insertion portion 320 of the cleaning tool 31 inserted in the optical adaptor 370 to correspond to the thickness direction and the width direction of the optical plug 360 and the ferrule 361 .
  • optical fiber holes 361 b of a prescribed number are opened so as to be arrayed on a connection end face 361 a of the ferrule 361 .
  • an optical fiber 363 is a four-fiber optical fiber tape ribbon, with optical fibers 363 a having their resin coating removed at the distal end portion thereof (bare optical fibers) inserted into the optical fiber holes 361 b (micro holes) in the ferrule 361 . By doing so they are terminated to be butt-connectable with another optical connector and penetrate the inside of the optical plug 360 to be drawn out from the back end of the optical plug 360 .
  • the optical fiber 363 may be one having a single core, one having multi-core, an optical fiber cord having such a single core housed in a tube, an optical fiber cord having such multi-core housed in a tube, or the like.
  • Guide-pin holes 361 c are provided in the connection end face 361 a of the ferrule 361 on both sides of the outside of the optical fiber holes 361 b in the width direction.
  • Ferrules 361 are aligned with each other to a high degree of accuracy by a positioning mechanism of a widely-known guide-pin fitting system whereby protruding members 365 (guide pins) are provided so as to protrude from the connection end face 361 a and to be inserted into the guide-pin holes 361 c with the end faces of the optical fibers 363 a being connected by butt-coupling.
  • the optical fibers 363 terminated in the ferrules 361 are thus optically connected.
  • the optical adaptor 370 is formed in a sleeve-shape having a connector insertion port 371 on both sides. By inserting the optical plug 360 from the connector insertion port 371 , it can be housed in a connector housing hole 372 formed in the interior of the optical adaptor 370 and continuous with the connector insertion port 371 .
  • the optical plug 360 When the optical plug 360 is inserted from the connector insertion port 371 in the optical adaptor 370 , it is housed in the connector housing hole 372 while displacement in a direction deviating from the insertion direction is restricted.
  • the ferrules 361 When two optical plugs 360 are inserted in the optical adaptor 370 , the ferrules 361 are butted against each other within the optical adaptor 370 , with the optical fibers 363 terminated by the ferrules 361 being thereby optically connected.
  • a coupling 368 is mounted for pressing the elastic engaging pieces from the outside to prevent release of engagement with the engaging recesses when the engaging claws and the engaging recesses are engaged.
  • the optical plug 360 When the optical plug 360 is inserted into the optical adaptor 370 from the connector insertion port 371 , it is housed in the connector housing hole 372 while displacement in a direction deviating from the insertion direction is restricted by the engagement of the engaging recesses and the engaging claws.
  • the cleaning tool 31 capable of being applied to cleaning of the connection end face 361 a of the optical plug 360 is as shown in FIGS. 45A through 47 provided with a roughly case-shaped tool body 310 having a cleaning member 32 housed therein and the insertion portion 320 set to protrude from the tool body 310 and formed to be insertable in the connector housing hole 372 of the optical adaptor 370 .
  • the tool body 310 here is a two-split structure of first and second case half-bodies 311 , 312 made of plastic.
  • the case half-bodies 311 , 312 are constituted to be able to be integrated together by mating fitting pins protrudingly formed on the inner side of the first case half-body 311 with fitting holes set in bosses provided in a protruding manner on the inner side of the second case half-body 312 .
  • this is merely one example of the constitution of the tool body 310 and is not meant to particularly limit the present invention.
  • the cleaning member 32 is here a tape
  • the tape 32 is not particularly limited, and one can be adopted in which a publicly known suitable cleaning fabric (unwoven or woven fabric) is processed into a tape shape.
  • a publicly known suitable cleaning fabric unwoven or woven fabric
  • those made from an extra-fine fiber such as polyester or nylon are exemplified.
  • a tape feeding mechanism that feeds the tape 32 is provided in a storage space 335 of the tool body 310 as a driving mechanism 33 .
  • This tape feeding mechanism 33 is provided with a supply reel 330 wound with the tape 32 , a take-up reel 331 that takes up and collects the tape 32 after use, and an operation dial 334 that operates the tape 32 .
  • a supply reel support shaft 332 on which the supply reel 330 is rotatably mounted and a take-up reel support shaft 333 on which the take-up reel 331 is rotatably mounted are provided to protrude toward the side of the second case half-body 312 .
  • the tape 32 is stretched in the storage space 335 along pin-shaped tape guides 336 . Midway, it is wound around a head portion 323 , to be described hereinafter, housed in the insertion portion 320 .
  • the operation dial 334 is mounted on the outer circumference of the take-up reel support shaft 333 so as to be concentric with the take-up reel 331 .
  • a portion of the operation dial 334 is exposed to outside the tool body 310 from a window 311 a provided on a side surface of the first case half-body 311 .
  • the radius of the operation dial 334 is greater than the radius of the take-up reel 331 .
  • the length of the tape 32 taken up on the take-up reel 331 is smaller than the amount of operation of the operation dial 334 (displacement amount along the outer circumference of the operation dial 334 ) by just as much as the radial ratio. For this reason, very small feeding amounts of the tape 32 can be easily achieved.
  • the tape feeding mechanism 33 can be driven by operating the operation dial 334 by finger or the like to rotate it in the prescribed direction. More specifically, by rotation of the operation dial 334 , the take-up reel 331 rotates to take up the tape 32 , while the unused tape 32 is unreeled from the supply reel 330 and fed. Since the window 311 a opens to the side surface of the tool body 310 , even if the cleaning tool 31 is held with one hand, the operation dial 334 can be easily operated by a finger of the hand holding the cleaning tool 31 .
  • the cleaning tool 31 is, as shown in FIGS. 45A , 45 B and FIG. 46 , provided with the insertion portion 320 , which is set to protrude from the tool body 310 and formed to be insertable in the optical adaptor 370 .
  • an abutting portion 32 a of the cleaning member 32 (tape) disposed facing an opening portion 326 in the distal end of the insertion portion 320 is positioned to be abuttable against the connection end face 361 a of the optical plug 360 .
  • the tool body 310 tapers toward the insertion portion 320 , with the insertion portion 320 formed at the distal end of a small diameter portion 319 (the left side in FIG. 45A ).
  • the abutting portion 32 a of the tape 32 is the portion positioned on an abutting face 324 of the head portion 323 , with the abutting portion 32 a being replaced along the longitudinal direction of the tape 32 by feeding movement of the tape 32 .
  • a projecting wall 319 a for reinforcing the small diameter portion 319 is provided in the interior of the small diameter portion 319 . Since the path of a cleaning tape 32 b ( 32 ) that should be clean heading from the supply reel 330 to the head portion 323 and the path of a cleaning tape 32 c ( 32 ) that is soiled from wiping and cleaning heading from the head portion 323 to the take-up reel 331 are partitioned by this projecting wall 319 a , it exhibits the effect of suppressing migration of contaminants on the cleaning tape 32 .
  • a step 315 with the tool body 310 side is provided on the insertion portion 320 .
  • This step 315 is for preventing the depth of entry of the insertion portion 320 into the connector housing hole 372 from becoming too deep by the step 315 abutting the periphery 371 a of the connector insertion port 371 in the optical adaptor 370 when the insertion portion 320 is inserted in the connector housing hole 372 of the optical adaptor 370 .
  • the insertion portion 320 is a two-split structure similar to the tool body 310 , being formed by integration of insertion portion half-bodies 320 a , 320 b integrally formed with the case half-bodies 311 , 312 , respectively, accompanying the integration of the case half-bodies 311 , 312 .
  • Engaging recesses 321 formed to be engageable with the engaging claws of the elastic engaging pieces (described above) on the optical adaptor 370 when the insertion portion 320 is inserted in the optical adaptor 370 are formed on both sides in the width direction of the outer surface of the insertion portion 320 . Since front edge portions 321 a of the engaging recesses 321 (edge portions on the side near the distal end of the insertion portion 320 , on the left side in FIG. 53 ) are oblique faces, in the state of the engaging claws of the optical adaptor 370 engaged with the engaging recesses 321 , when the insertion portion 320 is pulled out in the disengagement direction (toward the upper right in FIG. 53 ), the engaging claws overcome the front edge portions 321 a so as to disengage from the engaging recesses 321 with comparatively little force.
  • a tape abutting mechanism 34 for causing the tape 32 to abut the connection end face 361 a of the ferrule 361 is disposed in the insertion portion 320 .
  • the tape abutting mechanism 34 includes the head portion 323 having the abutting face 324 disposed facing the connection end face 361 a in the state of the insertion portion 320 of the cleaning tool 31 being inserted in the optical adaptor 370 and a head tilting mechanism 340 that tilts the abutting face 324 of the head portion 323 so that the abutting face 324 can change the direction of the tape 32 with respect to the insertion direction.
  • the abutting face 324 is provided on the side of the insertion direction of the head portion 323 (the left side in FIGS. 48 and 49 ). As shown in FIG. 52 , the abutting face 324 is of an approximately rectangular shape, and during insertion of the head portion 323 into the optical adaptor 370 , the protruding members (guide pins) 365 protruding from the connection end face 361 a are inserted, and guide pin insertion holes 322 , 322 are formed on both sides in the width direction of the insertion portion 320 as recesses for avoiding interference with the guide pins 365 .
  • the abutting face 324 is positioned inward of an end edge 326 a of the opening portion 326 in the insertion portion 320 (right side in FIGS. 48 and 49 ).
  • the abutting face 324 may be made to protrude to the side of the insertion direction (left side in FIGS. 48 and 49 ) more than the end edge 326 a of the opening portion 326 .
  • guide grooves 325 to guide the tape 32 are provided on the head portion 323 to oppose each other via the abutting face 324 .
  • the tape 32 has 32 A disposed in the central portion of the insertion portion 320 in the width direction (the horizontal direction in FIG. 52) and 32B , 32 B disposed on both side portions of the insertion portion 320 in the width direction.
  • the guide grooves 325 have 325 A disposed in the central portion of the insertion portion 320 in the width direction and 325 B, 325 B disposed on both side portions of the insertion portion 320 in the width direction.
  • the tapes 32 and the guide grooves 325 are at times explained by differentiating with different reference numbers 32 A, 32 B, 32 B and 325 A, 325 B, 325 B.
  • the tapes 32 B and the guide grooves 325 B disposed at both side portions of the insertion portion 320 in the width direction are not necessary.
  • Three pair of the guide grooves 325 A, 325 B, 325 B are provided, corresponding respectively to the tapes 32 A, 32 B, 32 B.
  • the widths of the guide grooves 325 A, 325 B, 325 B fit the widths of the tapes 32 A, 32 B, 32 B.
  • the tapes 32 A, 32 B, 32 B are wrapped around the head portion 323 by the upper side guide grooves 325 A, 325 B, 325 B, the abutting face 324 , and the lower side guide grooves 325 A, 325 B, 325 B, respectively.
  • the guide pin insertion holes 322 , 322 are disposed so as to open between the tapes 32 A, 32 B, 32 B guided by the guide grooves 325 A, 325 B, 325 B.
  • the guide pins 365 can thereby be inserted in the guide pin insertion holes 322 , 322 , passing between the tapes 32 A, 32 B, 32 B to avoid interference with the tapes 32 A, 32 B, 32 B.
  • the head tilting mechanism 340 has a pair of slide portions 341 a , 341 b disposed parallel to each other to extend approximately in the direction of insertion and separation (left and right in FIGS. 48 and 49 ) of the insertion portion 320 , one end thereof being coupled by thin elastic deformation portions 342 , 342 to a back face 327 of the head portion 323 opposite the abutting face 324 , a coupling portion 344 coupling the other end of the slide portions 341 a , 341 b opposite the head portion 323 via elastic deformation portions 343 , 343 , and a guide portion 345 that guides so that the slide portions 341 a , 341 b slide and displace in the extending directions thereof.
  • the coupling portion 344 has a movement restriction portion (stopper) 346 that restricts movement of the insertion portion 320 in both the insertion direction and the separation direction in the opposite direction thereto, and a bridging portion 348 that bridges the slide portions 341 a , 341 b in the thickness direction of the insertion portion 320 (vertical direction in FIGS. 48 and 49 ).
  • the bridging portion 348 is also elastically deformable (elastic deformation portion) with respect to displacement of the slide portions 341 a , 341 b.
  • the slide portions 341 a , 341 b are respectively coupled to the upper side and lower side (upper and lower in FIGS. 48 and 49 ) of the back face 327 of the head portion 323 , corresponding to top end edge 324 a and bottom end edge 324 b of the abutting face 324 of the head portion 323 .
  • the head portion 323 , the pair of slide portions 341 a , 341 b and the coupling portion 344 constitute a square frame-shaped component 347 (head composite body).
  • the head portion 323 , the slide portions 341 a , 341 b , the coupling portion 344 , the elastic deformation portions 342 , 342 , 343 , 343 , and the bridging portion 348 become the head composite body 347 integrally formed from plastic or the like.
  • the head composite body 347 is held in the insertion portion 320 by inserting the guide 345 and the stopper 346 in a space 349 between the slide portions 341 a , 341 b and a stopper insertion hole 344 a.
  • the guide 345 has an approximately rectangular sectional shape, and is provided in the width direction of the insertion portion 320 between the pair of slide portions 341 a , 341 b in a manner protruding from an inner wall 328 disposed in the width direction of the insertion portion 320 (the direction perpendicular to the sheet of FIGS. 48 and 49 ).
  • the guide 345 guides the sliding of the slide portions 341 a , 341 b by means of the upper surface 345 a and lower surface 345 b thereof (upper side and lower side, respectively, in FIGS. 50 and 51 ).
  • the stopper 346 has an approximately round sectional shape, and is provided in a manner protruding from the inner wall 328 disposed in the width direction of the insertion portion 320 .
  • a stopper insertion hole 344 a is formed in the coupling portion 344 between the portions coupled with the elastic deformation portions 343 , 343 . The stopper 346 is inserted into the stopper insertion hole 344 a.
  • Displacement of the coupling portion 344 in the insertion direction and separation direction of the insertion portion 320 is restricted by the stopper 346 , so that it essentially hardly displaces in either direction.
  • the head tilting mechanism 340 is disposed between the tape 32 ( 32 b ) on the supply reel 330 side of the head portion 323 and the tape 32 ( 32 c ) on the take-up reel 331 side of the head portion 323 .
  • the head portion 323 can thereby be stably tilted without inhibiting the feeding movement of the tape 32 .
  • Recesses 350 are formed at locations on the coupling portion 344 near the tape 32 (the top and bottom surfaces of the coupling portion 344 , top and bottom in FIGS. 48 and 49 ) in order to avoid interference with the tape 32 .
  • the recesses 350 are provided at three places ( 350 A, 350 B, 350 B) corresponding to the guide grooves 325 A, 325 B, 325 B to the rear (in the separation direction of the insertion portion 320 . Toward the upper right in FIGS. 50 and 51 ) of the guide grooves.
  • the head composite body 347 is deformable by the elasticity of the elastic deformation portions 342 , 342 , 343 , 343 and the bridging portion 348 and is constituted so as to allow tilting of the head portion 323 with respect to a pushing force on the abutting face 324 of the head portion 323 . More specifically, by an uneven pressing force acting on the top end edge 324 a and the bottom end edge 324 b of the abutting face 324 with respect to the head portion 323 , the slide portions 341 a , 341 b displace in the insertion direction and separation direction of the insertion portion 320 , so that the abutting face 324 is allowed to tilt.
  • the shapes of the portions supporting the head portion 323 in the head composite body 347 can be formed into appropriate shapes such as struts, walls and plates.
  • the direction of the abutting face 324 of the head composite body 347 does not change by such an extent that would exert an adverse effect on cleaning by friction acting between the tape 32 and the head portion 323 when the tape 32 is fed in the feeding direction.
  • the threshold value of the pressing force allowing tilting of the abutting face 324 is adjustable by the ease of elastic deformation of the elastic deformation portions 342 , 342 , 343 , 343 and the presence or absence of the bridging portion 348 . That is, the bridging portion 348 is not essential.
  • a cap or cover and the like for protecting the head portion 323 and the tape 32 facing the opening portion 326 may of course be attached to the distal end of the insertion portion 320 to be able to protect the tape 32 and the like when the cleaning tool 31 is not in use.
  • the insertion portion 320 of the cleaning tool 31 By inserting the insertion portion 320 of the cleaning tool 31 from the connector insertion port 371 of the optical adaptor 370 , the insertion portion 320 enters the connector housing hole 372 as its outer surface is aligned by the inner walls 370 a of the optical adaptor 370 .
  • the cleaning member 32 By pushing the insertion portion 320 until the step 315 runs into the periphery 371 a of the connector insertion port 371 , the cleaning member 32 is positioned to be abutted on an appropriate position (here, the optical fiber holes 361 b and periphery thereof) of the connection end face 361 a of the optical plug 360 .
  • the guide pins 365 protrude on the connection end face 361 a of the optical plug 360 , the guide pins 365 are housed in the guide pin insertion holes 322 provided on the head portion 323 , enabling the insertion portion 320 to be housed in the connector housing hole 372 without interference with the guide pins 365 .
  • the tape 32 moves in conjunction with the rotation of the take-up reel 331 , and since the connection end face 361 a is wiped and cleaned by the tape 32 , contaminants such as debris, dust and oil adhering to the connection end face 361 a are reliably extracted by the tape 32 .
  • connection end face 361 a can be thoroughly cleaned.
  • the insertion portion 320 can be easily removed by pulling in the direction opposite to when inserting the cleaning tool 31 (disengagement direction).
  • connection end face 361 a can abut the tape 32 with a uniform abutting force, and can smoothly advance the tape 32 . Accordingly, cleaning can be reliably performed so that contaminants do not remain on the connection end face 361 a.
  • the tape 32 ( 32 A, 32 B, 32 B) in the guide grooves 325 A, 325 B, 325 B, even when the head portion 323 has changed direction by tilting, the tape 32 makes no contact with inner walls 329 a , 329 b (upper and lower inner walls in FIGS. 48 and 49 ) of the insertion portion 320 in the tilting direction of the head portion 323 .
  • the head portion 323 is able to tilt with respect to the pushing force when the abutting face 324 abuts the connection end face 361 a of the optical plug 360 , even in the event of the ferrule 361 with a perpendicularly polished connection end face 361 a as shown in FIG. 48 being abutted, and even in the event of the ferrule 361 with an obliquely polished connection end face 361 a as shown in FIG. 49 being abutted, the direction of the abutting face 324 is aligned with the direction of the connection end face 361 a , and the tape 32 on the abutting face 324 can be more uniformly and securely made to abut the connection end face 361 a.
  • the abutting face 324 of the head tilting mechanism 340 does not substantially displace vertically in the tilting direction thereof (vertical direction in FIGS. 48 and 49 ), poor contact of the tape 32 with the connection end face 361 a due to shifting of the center positions of the connection end face 361 a of the optical plug 360 and the abutting face 324 of the head portion 323 , and unevenness in the abutting force of the connection end face 361 a abutting the tape 32 is suppressed, thereby enabling more secure removal of contaminants on the connection end face 361 a.
  • the insertion portion 320 is positioned by the connector housing hole 372 of the optical adaptor 370 during cleaning as well, wiping and cleaning of the connection end face 361 a can be performed by the tape 32 with a uniform pushing pressure without displacement.
  • the insertion portion 320 can be supported in the optical adaptor 370 with an extremely light force, and so has excellent operability.
  • a stopper it is not necessary for a stopper to be inserted in a stopper insertion hole formed in the coupling portion.
  • displacement in the insertion direction and separation direction of the insertion portion 320 can be limited even by disposing stoppers 346 a , 346 b provided in a protruding manner from the inner wall 328 disposed in the width direction of the insertion portion 320 so as to sandwich the front and rear of the coupling portion 344 (places in the coupling portion 344 positioned in the insertion direction and separation direction of the insertion portion 320 . Left and right in FIG. 56 ).
  • receiving portions 344 b , 344 b are provided in the coupling portion 344 for smooth contact with the stoppers 346 a , 346 b , however, they are not necessary in the sixth embodiment.
  • the construction of the head is not particularly limited, and, for example, a head with a conventional construction such as that illustrated in FIG. 57 can also be employed.
  • a constitution of the head tilting mechanism is also possible that retains the head portion by means of an elastic body such as a spring connected to the rear face of the head portion and biasing it so that the opposed both end edges of the abutting face of the head portion can displace by differing amounts of displacement with respect to the insertion direction and separation direction of the insertion portion. Even by such a constitution, tilting of the head portion can be allowed by elastic deformation of the elastic body.
  • an elastic body such as a spring connected to the rear face of the head portion and biasing it so that the opposed both end edges of the abutting face of the head portion can displace by differing amounts of displacement with respect to the insertion direction and separation direction of the insertion portion.
  • the head tilting mechanism can also have a constitution other than frame-shaped depending on the selection of materials.
  • a constitution is also possible to allow tilting of the head portion by elastic deformation of the head portion itself.
  • unit insertion portions which, by insertion into different connector housings, are to be positioned within the connector housing are formed at a plurality of locations in the protruding direction of the insertion portion, and the unit insertion portions of the insertion portion may be formed so as to be insertable in all connector housings capable of housing the unit insertion portions positioned relatively to the rear in the protruding direction of the insertion portion.
  • the insertion portion can be inserted so as to be positioned with respect to different connector housings by the respective unit insertion portions, so that, using a single cleaning tool, cleaning of a connection end face of an optical connector in the connector housing can be carried out in compliance with a plurality of types and sizes of connector housing.
  • the insertion portion can be constituted as one in which a plurality of kinds of insertion portions are exchangeable with respect to the tool body. This enables cleaning of the connection end face of an optical connector in a connector housing in compliance with the type and size of the connector housing just by changing the insertion portion without changing the tool body.
  • the driving mechanism for feeding the tape is not limited to one that is manually driven, and may be made to be driven by power from a motor or spring and the like. Also, manual driving and driving by motive power can be made to be used in combination or be switchable as required.
  • the insertion portion is made to completely cover the cleaning member, except for the opening formed at the distal end of the insertion portion, but is not necessarily limited thereto. If the cleaning member is prevented from being contaminated by contact with the inner walls of the connector housing and the like when inserting the insertion portion in the connector housing, the shape or structure is not particularly limited, and does not necessarily need to be sleeve shaped.
  • FIGS. 58A to 79D are views showing the seventh embodiment of the optical connector cleaning tool of the present invention (hereafter simply referred to as the “cleaning tool”).
  • an optical connector plug 460 (sometimes referred to hereafter simply as an optical plug) and an optical connector adaptor 470 (connector housing. Sometimes referred to hereafter simply as an optical adaptor) to which a cleaning tool 41 of the seventh embodiment is applied are Multifiber Push-On (MPO) type optical connectors defined according to JIS C 5982.
  • MPO Multifiber Push-On
  • the optical plug 460 is an optical connector plug of a constitution housing a Mechanically Transferable (MT) type optical connector ferrule 461 (hereafter simply referred to as a ferrule) defined according to JIS C 5981 at a distal end portion of a plastic sleeve-shaped housing 462 , with the whole plug being formed in a low profile sectional shape in appearance.
  • MT Mechanically Transferable
  • the direction corresponding to the low-profile, short side (vertical direction in FIG. 76 ) of the ferrule 461 of the optical plug 460 is referred to as the thickness direction
  • the direction corresponding to the long side is referred to as the width direction (horizontal direction in FIG. 76 ).
  • thickness direction and width direction are also similarly used for the optical adaptor 470 connected with the optical plug 460 and an insertion portion 420 (described below) of the cleaning tool 41 inserted in the optical adaptor 470 to correspond to the thickness direction and the width direction of the ferrule 461 .
  • optical fiber holes 461 b are opened so as to be arrayed near a center location 466 of a connection end face 461 a of the ferrule 461 .
  • an optical fiber 463 is a four-fiber optical fiber tape ribbon, with optical fibers 463 a having their resin coating removed at the distal end portion thereof (bare optical fibers) inserted into the optical fiber holes 461 b in the ferrule 461 . By doing so they are terminated to be butt-connectable with another optical connector and penetrate the inside of the optical plug 460 to be drawn out from the back end of the optical plug 460 .
  • the optical fiber 463 may be one having a single core, one having multi-core, an optical fiber cord having such a single core housed in a tube, an optical fiber cord having such multi-core housed in a tube, or the like.
  • Guide-pin holes 461 c are provided in the connection end face 461 a of the ferrule 461 on both sides of the outside of the optical fiber holes 461 b in the width direction.
  • Ferrules 461 are aligned with each other to a high degree of accuracy by a positioning mechanism of a widely-known guide-pin fitting system whereby protruding members 465 (guide pins) are provided so as to be inserted into the guide-pin holes 461 c and protrude from the connection end face 461 a , with the end faces of the optical fibers 463 a being connected by butt-coupling.
  • the optical fibers 463 terminated in the ferrules 461 are thus optically connected.
  • the optical adaptor 470 is formed in a sleeve shape in which both sides of a connector housing hole 472 are opened as connector insertion ports 471 . By inserting the optical plug 460 from the connector insertion port 471 , it can be housed in the connector housing hole 472 .
  • the optical adaptor 470 as in the present invention is an all-inclusive term for relay equipment that positions, connects and fixes optical plugs 460 on both sides thereof. Accordingly, the optical plugs 460 on both sides connected to the optical adaptor 470 are not limited to those shaped the same as each other. Even if optical plugs with different shapes are connectable, it is termed an optical adaptor.
  • the optical plug 460 When the optical plug 460 is inserted from the connector insertion port 471 in the optical adaptor 470 , it is housed in the connector housing hole 472 while displacement in a direction deviating from the insertion direction is restricted.
  • the ferrules 461 When two optical plugs 460 are inserted in the optical adaptor 470 , the ferrules 461 are butted against each other within the adaptor 470 , with the optical fibers 463 terminated by the ferrules 461 being thereby optically connected.
  • the optical adaptor 470 similarly to the widely known MPO type connector there is provided a key groove 472 a on an inner wall 470 a of the optical adaptor 470 to engage with a key 462 a formed on the housing 462 of the optical plug 460 .
  • the key 462 a and the key groove 472 a are formed only on one of the surfaces on both sides in the thickness direction of the housing 462 of the optical plug 460 and the connector insertion port 471 of the optical adaptor 470 , respectively.
  • the orientation of the key 462 a and the key groove 472 a do not match, the optical plug 460 cannot be inserted into the connector insertion port 471 of the optical adaptor 470 .
  • connection end face 461 a of the optical plug 460 being obliquely polished (polished into an oblique plane)
  • errors of inserting the optical plug 460 in the optical adaptor 470 with its orientation in the thickness direction reversed (reverse insertion) are thereby prevented.
  • optical adaptor 470 although not particularly illustrated, there are provided elastic engaging pieces formed extending toward the connector insertion port 471 along inner walls 470 a of the optical adaptor 470 and having engaging claws on the distal end thereof.
  • engaging recesses capable of engagement with the engaging claws of the elastic engaging pieces of the optical adaptor 470 are provided on the surfaces of both sides in the width direction of the housing 462 of the optical plug 460 .
  • a coupling 468 is mounted for pressing the elastic engaging pieces from the outside to prevent release of engagement with the engaging recesses when the engaging claws and the engaging recesses are engaged.
  • the optical plug 460 When the optical plug 460 is inserted into the optical adaptor 470 from the connector insertion port 471 , it is housed in the connector housing hole 472 while displacement in a direction deviating from the insertion direction is restricted by the engagement of the engaging recesses and the engaging claws.
  • the cleaning tool 41 capable of being applied to cleaning of the connection end face 461 a of the optical plug 460 is as shown in FIGS. 58A through 62 and FIG. 74 provided with a tool body 410 having cleaning tapes 42 A to 42 C housed therein and an insertion portion 420 set to protrude from the tool body 410 and formed to be insertable in the connector housing hole 472 of the optical adaptor 470 .
  • the tool body 410 tapers toward the insertion portion 420 , with the insertion portion 420 formed at the protruding distal end of a narrow portion 419 of the tool body 410 distal end portion (the end at the left side in FIG. 58A ).
  • the tool body 410 here is a two-split structure of first and second case half-bodies 411 , 412 made of plastic such as polystyrene (PS) or polyoxymethylene (POM, polyacetal).
  • PS polystyrene
  • POM polyoxymethylene
  • the first and second case half-bodies 411 , 412 are constituted to be able to be integrated together by the engagement of fitting pins 413 a to 413 e and fitting holes 414 a to 414 e formed to be disposed oppositely on the inner sides of the first case half-body 411 and the second case half-body 412 .
  • this is merely one example of the constitution of the tool body 410 and is not meant to particularly limit the present invention.
  • an abutting portion 42 a of the cleaning tapes 42 A to 42 C disposed facing an opening portion 426 in the distal end of the insertion portion 420 is positioned to be abuttable against the connection end face 461 a of the optical plug 460 .
  • the abutting portion 42 a of the cleaning tapes 42 A to 42 C is the portion positioned on a distal end face 424 of a head member 423 (to be described in detail hereinafter), with the abutting portion 42 a being replaced along the longitudinal direction of the cleaning tape by feeding movement of the cleaning tape.
  • a total of three cleaning tapes are employed, with one 42 A cleaning a central region E 1 that is a portion positioned between the guide pin holes 461 c and those 42 B, 42 C cleaning outside regions E 2 , E 2 positioned outside the central region E 1 via the guide pin holes 461 c within the connection end face 461 a of the optical connector shown in FIG. 74 .
  • the widths of the cleaning tapes 42 A, 42 B, 42 C are made to match the widths of the regions to be cleaned E 1 , E 2 .
  • the width of the cleaning tape 42 A that cleans the central region E 1 is wider than the widths of the tapes 42 B, 42 C that clean the outside regions E 2 .
  • the cleaning tapes 42 A to 42 C are not particularly limited, and ones can be adopted in which a publicly known suitable cleaning fabric (unwoven or woven fabric) is processed into a tape shape.
  • a publicly known suitable cleaning fabric unwoven or woven fabric
  • those made from an extra-fine fiber such as polyester or nylon are exemplified.
  • the structure is also ordinary one with a roughly fixed width.
  • the cleaning tapes 42 A, 42 B, 42 C are mutually separated tapes, and as shown in FIG. 77 , there are gaps 45 between the cleaning tape 42 A of the central portion and the cleaning tapes 42 B, 42 C of both sides.
  • the guide pins 465 escape into the gaps 45 of the cleaning tapes 42 A to 42 C, and the central region E 1 and the outside regions E 2 , E 2 of the connection end face 461 a can be efficiently cleaned simultaneously. That is, the gaps 45 function as protruding member escape portions.
  • a projecting wall 419 a for reinforcing the narrow portion 419 is provided in the interior of the narrow portion 419 of the tool distal end portion. Since the path of the upstream side portion 42 b of the cleaning tapes 42 A to 42 C that should be clean (hereafter referred to at times as the “upstream portion”) heading from a supply reel 430 to the head member 423 and the path of the downstream side portion 42 c of the cleaning tapes 42 A to 42 C that are soiled from wiping and cleaning (hereafter referred to at times as the “downstream portion”) heading from the head member 423 toward a take-up reel 431 are partitioned by this projecting wall 419 a , it exhibits the effect of suppressing migration of contaminants on the cleaning tapes 42 A to 42 C.
  • the insertion portion 420 is a two-split structure similar to the tool body 410 , being formed by integration of insertion portion half-bodies 420 a , 420 b integrally formed with the case half-bodies 411 , 412 , respectively, accompanying the integration of the case half-bodies 411 , 412 .
  • Engaging recesses 421 for avoiding interference with the engaging claws of the elastic engaging pieces (described above) on the optical adaptor 470 when the insertion portion 420 is inserted in the optical adaptor 470 are formed on both sides in the width direction of the outer surface of the insertion portion 420 .
  • the engaging recesses 421 are not particularly necessary.
  • a key 422 to engage with a key groove 472 a on the optical adaptor 470 is provided in a protruding manner on the insertion portion 420 , whereby reverse insertion with respect to the optical adaptor 470 is blocked.
  • a head composite body 44 having the head member 423 for causing the cleaning tape 42 a to abut the connection end face 461 a of the ferrule 461 is mounted at the distal end portion of the cleaning tool including the insertion portion 420 .
  • the head composite body 44 is constituted to include the head member 423 having the distal end face 424 facing the connection end face 461 a of the optical plug 460 to be cleaned during cleaning and a support mechanism 440 coupled to a back face 427 of the head member 423 that is the side reverse to the distal end face 424 from the head member 423 and supports the head member 423 .
  • the head composite body 44 is one in which the head member 423 and the support mechanism 440 are integrally formed, and can be manufactured from plastic such as polyoxymethylene (POM) using a suitable molding method.
  • plastic such as polyoxymethylene (POM)
  • the head composite body 44 is disposed between the upstream portion 42 b of the cleaning tapes 42 A to 42 C that is the supply reel 430 side of the head member 423 and the downstream portion 42 c of the cleaning tapes 42 A to 42 C that is the take-up reel 431 side of the head member 423 . For this reason, the head composite body 44 does not inhibit feeding movement of the cleaning tapes 42 A to 42 C.
  • the head member 423 has an approximately rectangular-shaped distal end face 424 and is able to effectively secure an abutting area with respect to the connection end face 461 a of the optical plug 460 .
  • the distal end face 424 is provided at the insertion distal end (left side in FIGS. 70A , 70 B) of the head member 423 , and is exposed to the opening portion 426 of the insertion portion 420 distal end.
  • a pair of guide pin insertion holes 423 a are formed on both sides in the width direction of the insertion portion 420 as protruding member escape portions that can pass the protruding members (guide pins) 465 protruding from the connection end face 461 a .
  • the guide pin insertion holes 423 a penetrate from the distal end face 424 of the head member 423 to the back face 427 . Thereby, when the insertion portion 420 is inserted into the optical adaptor 470 , interference between the head member 423 and the guide pins 465 can be avoided.
  • guide grooves 425 A, 425 B, 425 C to guide the feeding of the cleaning tapes 42 A to 42 C are provided on the head member 423 to oppose each other via the distal end face 424 .
  • These guide groves 425 A, 425 B, 425 C function as a tape positioning mechanism.
  • Three pair of the guide grooves 425 A, 425 B, 425 C are provided, corresponding respectively to the cleaning tapes 42 A, 42 B, 42 C.
  • the widths of the guide grooves 425 A, 425 B, 425 C fit the widths of the cleaning tapes 42 A, 42 B, 42 C.
  • the cleaning tapes 42 A, 42 B, 42 C are wrapped around the head member 423 by the guide grooves 425 A, 425 B, 425 C on the upstream side and downstream side of the distal end face 424 .
  • the guide pin insertion holes 423 a are disposed so as to open in the gaps 45 of the cleaning tapes 42 A, 42 B, 42 C guided by the guide grooves 425 A, 425 B, 425 C.
  • the guide pins 465 , 465 can thereby pass between the cleaning tapes 42 A, 42 B, 42 C and be inserted in the guide pin insertion holes 423 a , avoiding interference with the cleaning tapes 42 A, 42 B, 42 C.
  • the support mechanism 440 has a tilting spring 441 protruding from the recess 427 a formed in the back face 427 of the head member 423 , a compression spring 442 coupled to the tilting spring 441 , and a plate-shaped base portion 443 connected to the side of the compression spring 442 opposite the tilting spring 441 .
  • the base portion 443 is fixed to mounting recesses 429 formed in the case of the cleaning tool (specifically, on the inner surface of the narrow portion 419 of the tool body 410 ).
  • the compression spring 442 functions as a coupling portion that expansively connects the tilting spring 441 and the base portion 443 .
  • the shape and the like of the tilting spring 441 is not particularly limited, and as shown in FIGS. 70A , 70 B, it is formed in a waveform having a plurality of rotational central axes 441 a , 441 b , 441 c by means of bending curvature portions. These rotational central axes 441 a , 441 b , 441 c all extend in the width direction of the insertion portion 420 (the direction perpendicular to the sheet of FIG. 70B ).
  • At least one of the rotational central axes (here, 441 b ) is disposed in a position displaced in the thickness direction of the insertion portion 420 (vertical direction in FIG. 70B ). It is in a twisted position (a positional relation of two straight lines in a space that neither intersect nor are parallel) with respect to a straight line G extending in the insertion direction (rightward in FIG. 70B ) of the optical connector 460 from the center location 424 c on the distal end face 424 of the head member 423 .
  • the bending curvature portion 441 b is rounded, so that even if the cleaning tape (downstream portion) 42 c touches, there is no risk of it being damaged. In addition, even if the cleaning tape 42 c touches the bending curvature portion 441 b , it is the back face opposite the surface of the side that cleans the ferrule 461 , and so there is no problem of migration of contaminants.
  • the compression spring 442 is a pair of waveform springs symmetrically disposed in the width direction (vertical direction in FIG. 70A ) of the insertion portion 420 .
  • Corner portions 442 c on the distal end thereof are housed in a pair of slide grooves 428 provided in the inner walls of both sides in the width direction of the insertion portion 420 .
  • the slide grooves 428 extend in the insertion and separation direction of the insertion portion 420 (horizontal direction in FIGS. 70A and 70B ) and have end portion walls 428 a that close the end portion of the distal end (left side in FIGS. 70A , 70 B) of the insertion portion 420 .
  • the compression spring 442 When a pushing pressure does not act on the distal end face 424 of the head member 423 , the compression spring 442 , by its own springing force, biases the corner portions 442 c of the compression spring 442 , causing them to abut the end portion walls 428 a of the slide grooves 428 .
  • the corner portions 442 c of the compression spring 442 are slidable in both directions along the slide grooves 428 by extension and compression of the compression spring 442 .
  • the base portion 443 is formed as a plate-shaped member so as to approximately plug the inner cross-section of the insertion portion 420 .
  • the base portion 443 is housed in the pair of mounting recesses 429 provided in a concave manner in opposition on both sides in the thickness direction of the narrow portion 419 of the tool distal end.
  • the base portion 443 has an approximately semi-cylindrical fitting portion 443 a that fits a fitting groove 429 a formed in one of the mounting recesses 429 .
  • the compression spring 442 When fitting together the case half-bodies 411 , 412 , by respectively housing the compression spring 442 in the slide grooves 428 and the base portion 443 in the mounting recesses 429 , the compression spring 442 is compressed, and by the biasing force of the compression spring 442 , the head composite body 44 is mounted between end portion walls 428 a of the slide grooves 428 and a projecting wall 429 b that protrudes on the rear-end of the mounting recess 429 . The head composite body 44 is attached so that the fitting portion 443 a fits into the fitting groove 429 a.
  • long holes 444 A, 444 B, 444 C through which the cleaning tapes are inserted are provided on the base portion 443 .
  • three pairs of the long holes 444 A, 444 B, 444 C are provided, corresponding to the three cleaning tapes 42 A, 42 B, 42 C.
  • the upstream side tape 42 b and the downstream side tape 42 c of the head member 423 are inserted into each pair of the long holes 444 A, 444 B, 444 C.
  • the cleaning tapes 42 A, 42 B, 42 C do not come off the head composite body 44 , leading to good attachment workability even when the cleaning tapes 42 A, 42 B, 42 C are a plurality (here, three).
  • the long holes 444 A, 444 B, 444 C are stepped in accordance with the thickness direction (vertical direction in FIG. 67D ) of the insertion portion 420 instead of being arranged in a row in the width direction of the insertion portion 420 . This is in order to be able to ensure that the dimensions of the long holes 444 A, 444 B, 444 C in the width direction are sufficiently larger than the widths of the cleaning tapes 42 A, 42 B, 42 C to be inserted without merging into each other.
  • the aforementioned head composite body 44 is constituted so that when a pushing pressure against the head member 423 is transmitted to the compression spring 442 , the head member 423 is able to retreat in the separation direction (rightward in FIGS. 71 and 72 ) of the insertion portion 420 .
  • FIG. 71 shows the case of the connection end face 461 a of the optical plug 460 being perpendicularly polished with respect to the optical axis (longitudinal direction in FIG. 71 ).
  • FIG. 72 shows the case of the connection end face 461 a of the optical plug 460 being obliquely polished with respect to the optical axis.
  • the tilting spring 441 elastically deforms so that the distal end face 424 can tilt upward or downward (vertically in FIG. 72 ) in the thickness direction of the insertion portion.
  • FIG. 72 shows the state of the head member 423 tilted upward.
  • connection end face 461 a of the optical plug 460 being one that is obliquely polished
  • the angle ⁇ formed by the feeding direction of the upstream side cleaning tape 42 b supplied to the head member 423 and the feeding direction of the cleaning tape 42 a moving along the distal end face 424 of the head member 423 is an acute angle.
  • angle ⁇ formed by the feeding direction of the cleaning tape 42 a moving along the distal end face 424 of the head member 423 and the feeding direction of the downstream side cleaning tape 42 c sent away from the head member 423 is an obtuse angle.
  • the aforementioned angle ⁇ is smaller than the aforementioned angle ⁇ ( ⁇ ).
  • the relationship of the aforementioned angles ⁇ , ⁇ becoming ⁇ > ⁇ is prevented by engagement of a key and key groove to prevent reverse insertion, such as engagement of the key 462 a of the optical plug 460 and the key groove 472 a of the optical adaptor 470 , and engagement of the key 422 of the insertion portion 420 of the cleaning tool 41 and the key groove 472 a of the optical adaptor 470 .
  • the cleaning tape contacts the guide grooves 425 A to 425 C of the head member 423 at the upstream side 42 b of the distal end face 424 , and is in a state raised from the guide grooves 425 A to 425 C of the head member 423 at the downstream side 42 c . Because of this, when the cleaning tapes 42 a to 42 c are fed in the feeding direction (the direction shown by the straight arrows in FIG.
  • the head member 423 is rotated in the feeding direction of the cleaning tapes 42 a to 42 c by the friction between the upstream portion 42 b of the cleaning tapes and the head member 423 , which acts to press the cleaning tape 42 a onto the connection end face 461 a .
  • the friction between the cleaning tape 42 c and the head member 423 is relatively less, and so the rotating action in the direction of pulling the head member 423 and the cleaning tape 42 a away from the connection end face 461 a is small. Accordingly, the cleaning tape 42 a abuts the connection end face 461 a well, and the cleaning efficiency of the connection end face 461 a improves.
  • connection end face 461 a of the optical plug 460 is abutted on the distal end face 424 of the head member 423 , the rotational axis line of the bending curvature portion 441 b is in a twisted position (a positional relation of two straight lines in a space that neither intersect nor are parallel) with respect to a straight line F extending in the insertion direction (rightward in FIGS. 71 and 72 ) of the optical connector 460 from the center location 466 of the connection end face 461 a of the optical plug 460 .
  • connection end face 461 a of the optical plug 460 can be in a positional relation aligned with the center location 424 c on the distal end face 424 of the head member 423 , with no uneven contact, so that the pushing pressure onto the connection end face 461 a acts sufficiently uniformly. Accordingly, the connection end face 461 a can be uniformly cleaned by the cleaning tape.
  • the distance between the straight line F and the rotational axis line of the bending curvature portion 441 b (rotational radius) is secured, the torque produced centered on the rotational central axis by the pushing pressure applied to the distal end face 424 of the head member 423 from the connection end face 461 a is secured, thereby facilitating smooth rotation of the head member 423 , and the distal end face 424 of the head member 423 easily follows the direction of the connection end face 461 a.
  • a guide cap 450 has a guide body 451 formed in an approximately sleeve shape (tube shape) from plastic and the like and a lid 455 connected to one end of the guide body 451 by a hinge 456 .
  • a fitting hole 455 a that fits a projection 451 a provided on the guide body 451 is formed in the lid 455 , so that by flexing the hinge 456 to fit the fitting hole 455 a of the lid 455 with the projection 451 a on the guide body 451 , the lid 455 can be maintained in a closed state.
  • the end of the guide body 451 on the lid 455 side has a plug insertion port 452 (first port) in which the optical plug 460 is inserted, and the other end opposite the plug insertion port 452 has an insertion portion insertion port 453 (second port) in which the insertion portion 420 of the cleaning tool 41 is inserted.
  • the plug insertion port 452 and the insertion portion insertion port 453 are interconnected through an internal space 454 of the guide cap 450 .
  • the guide cap 450 can house the distal end portion of the optical plug 460 including the connection end face 461 a and the insertion portion 420 of the cleaning tool 41 in the internal space 454 of the guide cap 450 in a state of facing each other.
  • a key groove 457 a to fit a key 462 a provided in a protruding manner on the outer surface of the housing 462 of the optical plug 460 is provided on an inner wall on the plug insertion port 452 side of the guide body 451 .
  • a key groove 457 b to fit a key 422 provided in a protruding manner on the outer surface of the insertion portion 420 of the cleaning tool 41 is provided on the inner wall of the insertion portion insertion port 453 side of the guide body 451 .
  • the optical plug 460 and the insertion portion 420 of the cleaning tool 41 cannot be inserted into the guide body 451 .
  • the connection end face 461 a of the optical plug 460 being obliquely polished, errors of inserting the optical plug 460 in the guide cap 450 with its orientation in the thickness direction reversed (reverse insertion) are thereby prevented.
  • the guide cap 450 is detachably mounted on the insertion portion 420 . More specifically, when cleaning of the optical plug 460 is not being carried out, the guide cap 450 can be in a state of the insertion portion 420 of the cleaning tool 41 inserted in the insertion portion insertion port 453 . In addition, as shown by the chain double-dashed line in FIG. 69A , closing the lid 455 that covers up the plug insertion port 452 of the guide cap 450 can inhibit ingress of debris, dust and water and the like into the internal space 454 of the guide cap 450 , thereby enabling the internal space 454 to be constantly maintained in a clean state.
  • a tape feeding mechanism (hereinafter referred to on occasion as “tape feeding mechanism 43 ”) that feeds the cleaning tapes 42 A to 42 C is provided in a storage space 435 of the tool body 410 as a driving mechanism.
  • This tape feeding mechanism 43 is provided with the supply reel 430 wound with the cleaning tapes 42 A to 42 C, the take-up reel 431 that takes up and collects the cleaning tapes 42 A to 42 C after use, and an operation dial 434 that operates the feeding of the cleaning tapes 42 A to 42 C.
  • the supply reels 430 , the take-up reels 431 and the operation dial 434 can be manufactured by forming from plastic such as polystyrene (PS) or polyoxymethylene (POM, polyacetal) with a mold.
  • plastic such as polystyrene (PS) or polyoxymethylene (POM, polyacetal) with a mold.
  • a supply reel support shaft 432 on which the supply reel 430 is rotatably mounted and a take-up reel support shaft 433 on which the take-up reel 431 and the operation dial 434 are rotatably mounted are provided to protrude toward the second case half-body 412 .
  • the supply reel support shaft 432 and the take-up reel support shaft 433 are integrally formed with one case half-body 411 .
  • both case half-bodies 411 , 412 are bridged in the storage space 435 to be able to hold the supply reel 430 and the take-up reel 431 without dropping them.
  • the cleaning tapes 42 A to 42 C are stretched in the storage space 435 along pin-shaped tape guides 436 . Midway, they are wrapped around the head member 423 housed in the insertion portion 420 . As shown in FIGS. 59A and 59B , here the tape guides 436 are provided as the outer circumferential surface of the fitting pins 413 a provided in a protruding manner from the first case half-body 411 .
  • Ratchet grooves 432 c , 433 c extending in the axial direction of the reel support shafts 432 , 433 are provided around the outer circumference of the supply reel support shaft 432 and the take-up reel support shaft 433 . These ratchet grooves 432 c , 433 c can engage with a projection of a ratchet arm of the supply reel 430 and the take-up reel 431 described hereafter.
  • the same number (here, three) of the supply reels 430 and the take-up reels 431 are provided as the number of tapes 42 A, 42 B, 42 C.
  • the reels 430 , 431 are supported side by side by the supply reel support shaft 432 and the take-up reel support shaft 433 , respectively.
  • FIGS. 65A , 65 B and 66 show an example of the take-up reel 431 wound with the cleaning tape 42 A.
  • the take-up reel 431 is one in which a hollow cylindrical winding core portion 431 a and side plate portions 431 b , 431 b formed on both ends of the winding core portion 431 a are integrally formed from plastic or the like.
  • One cleaning tape is wound around one take-up reel 431 .
  • the spacing between the two side plate portions 431 b , 431 b is set to match the width of the cleaning tape wound therearound.
  • An insertion hole 431 h (through hole) that opens facing the outer circumferential surface 431 g of the winding core portion 431 a is formed in the winding core portion 431 a , and the insertion hole 431 h includes a narrow portion 431 k .
  • a way of attaching the end portion of the cleaning tape to the take-up reel 431 there are no particular limitations, however, as shown in FIGS. 65A and 65B , one way is to form a bunched-up knot 42 d at one end of the cleaning tape 42 A inserted in the insertion hole 431 h of the take-up reel 431 and prevent the knot 42 d from being pulled out of the narrow portion 431 k.
  • a ratchet arm 431 c is formed on the inner surface of the winding core portion 431 a of the take-up reel 431 .
  • An approximately semi-cylindrical projection 431 d is formed at the distal end of the ratchet arm 431 c facing the center in the radial direction of the take-up reel 431 .
  • a concave portion 431 e is formed on the inner surface of the winding core portion 431 a so as to accommodate the ratchet arm 431 c .
  • the ratchet arm 431 c is able by elastic deformation to allow the projection 431 d to oscillate in the radial direction of the take-up reel 431 .
  • the projection 431 d of the ratchet arm 431 c engages with the ratchet grooves 433 c provided around the periphery of the take-up reel support shaft 433 when the take-up reel is supported on the take-up reel support shaft 433 .
  • the projection 431 d repeatedly engages and disengages with the ratchet grooves 433 c due to elastic deformation of the ratchet arm 431 c , thereby imparting rotation resistance to rotation of the take-up reel 431 .
  • a constant tension force is required for the feeding movement of the cleaning tape, and slippage of the take-up reel 431 is suppressed.
  • the ratchet arm 431 c of the take-up reel 431 and the ratchet grooves 433 c of the take-up reel support shaft 433 function as a rotation resistance imparting mechanism that imparts rotation resistance to rotation of the take-up reel 431 .
  • the constant tension force permitting the feeding movement of the cleaning tapes 42 A to 42 C is to an extent such that stretching of the cleaning tapes due to tensioning by the tape feeding mechanism 43 does not exert an adverse effect on cleaning, and such that the tapes cannot be fed just by swinging or carrying the cleaning tool 41 .
  • the take-up reels 431 around which the cleaning tapes 42 B, 42 C are spooled have the same constitution as the take-up reel 431 for the cleaning tape 42 A shown in FIGS. 65A and 65B , except for different spacing between their side plate portions 431 b , 431 b , and so their illustration is omitted.
  • reels similar to the take-up reels 431 can be used as the supply reels 430 .
  • a ratchet arm having a projection that engages with the ratchet grooves 432 c provided around the periphery of the supply reel support shaft 432 is provided on the supply reels 430 , and the aforementioned rotation resistance imparting mechanism is constituted.
  • the operation dial 434 is mounted on the outer circumference of the take-up reel support shaft 433 so as to be concentric with the take-up reel 431 .
  • the operation dial 434 is one in which a hub portion 434 a that is penetratingly installed in the take-up reel support shaft 433 , a rim portion 434 c that has a knurled surface on its periphery, and a plurality of spoke portions 434 b connecting the hub portion 434 a and the rim portion 434 c are integrally formed from plastic and the like.
  • a ratchet arm 437 having an engaging claw 437 b formed in a protruding manner on the distal end of an arm portion 437 a extending in the circumferential direction of the operation dial 434 is provided on one of the plurality of spoke portions 434 b .
  • a hammer arm 438 having a hammerhead portion 438 b formed in a protruding manner at the distal end of an arm portion 438 a extending in the circumferential direction of the operation dial 434 is provided on another spoke portion 434 b .
  • the arm portions 437 a , 438 a of the ratchet arm 437 and the hammer arm 438 are elastically deformable.
  • a portion of the operation dial 434 is exposed to outside the tool body 410 from a window 411 a provided on a side surface of the tool body 410 .
  • the operation dial 434 and the take-up reel 431 are coupled so as to be integrated by fitting pins 434 p formed on the operation dial into insertion holes 431 p formed in the take-up reel 431 .
  • the radius of the operation dial 434 is greater than the radius of the take-up reel 431 .
  • the length of the cleaning tapes 42 A to 42 C spooled onto the take-up reel 431 is smaller than the amount of operation of the operation dial 434 (displacement amount along the outer circumference of the operation dial 434 ) by just as much as the radial ratio. For this reason, very small feeding amounts of the cleaning tapes 42 A to 42 C can be easily achieved.
  • the tape feeding mechanism 43 can be driven by operating the operation dial 434 by finger or the like to rotate it in the prescribed direction. More specifically, by rotation of the operation dial 434 , the take-up reel 431 rotates to take up the cleaning tapes 42 A to 42 C, and the unused cleaning tapes 42 A to 42 C are unreeled from the supply reel 430 and fed. Since the operation dial 434 is open to the side surface of the tool body 410 from the window 411 a , even if the cleaning tool 41 is held with one hand, the operation dial 434 can be easily operated by a finger of the hand holding the cleaning tool 41 .
  • annular wall portion 416 is formed on the inner surface of the first case half-body 411 , incorporating the take-up reel support shaft 432 .
  • a plurality of stranding projections 417 are formed at regular intervals along the periphery of the annular wall portion 416 on the outer circumference of the annular wall portion 416 .
  • a plurality of ratchet teeth 416 b are provided around the inner circumferential surface of the annular wall portion 416 .
  • the stranding projections 417 have inclined faces 417 a forming an acute angle with an outer circumferential surface 416 a of the annular wall portion 416 .
  • the inclined faces 417 a are provided on the side of the stranding projections 417 facing the rotation direction of the take-up reel 431 (the counterclockwise rotation direction in FIGS. 79A to 79D ).
  • Reverse rotation of the operation dial 434 is blocked by engagement of the engaging claw 437 b of the ratchet arm 437 with the ratchet teeth 416 b on the annular wall portion 416 .
  • the ratchet teeth 416 b and the ratchet arm 437 function as a reverse-feed blocking mechanism to block reverse feeding of the cleaning tapes 42 A to 42 C (a reverse-rotation prevention mechanism to prevent reverse rotation of the take-up reel). Accordingly, the cleaning tapes 42 A to 42 C are stably fed in the prescribed direction, which can suppress slack in the cleaning tapes 42 A to 42 C.
  • a feeding amount notification mechanism that notifies the feeding amount of the cleaning tapes 42 A to 42 C is constituted from the stranding projections 417 of the annular wall portion 416 and the hammer arm 438 of the operation dial 434 .
  • the feeding amount of the cleaning tapes 42 A to 42 C corresponding to one slapping sound can be made to serve as the feeding amount required for one cleaning of an optical connector.
  • multiple slapping sounds can be made to serve as the feeding amount corresponding to one cleaning of an optical connector. Operation is also possible by suitably changing the number of slapping sounds corresponding to one cleaning of an optical connector in accordance with the degree of dirtiness of the optical connector.
  • the insertion portion 420 of the cleaning tool 41 is inserted from the connector insertion port 471 of the optical adaptor 470 , the insertion portion 420 enters the connector housing hole 472 as its outer surface is aligned by the inner walls 470 a of the optical adaptor 470 , whereby the cleaning tapes 42 A to 42 C are positioned to be abutted on an appropriate position (here, the optical fiber holes 461 b and periphery thereof) of the connection end face 461 a of the optical plug 460 .
  • the guide pins 465 protrude on the connection end face 461 a of the optical plug 460 , the guide pins 465 are housed in the guide pin insertion holes 423 a provided on the head member 423 , enabling the insertion portion 420 to be housed in the connector housing hole 472 without interference with the guide pins 465 .
  • the cleaning tapes 42 A to 42 C move in conjunction with the rotation of the take-up reel 431 , and the connection end face 461 a is wiped and cleaned by the cleaning tapes 42 A to 42 C, with contaminants such as debris, dust and oil adhering to the connection end face 461 a being securely extracted by the cleaning tapes 42 A to 42 C.
  • the used cleaning tape (downstream portion) 42 c is not exposed any more from the opening portion 426 of the insertion portion 420 , and so there is no risk of the contaminants once again adhering to the connection end face 461 a.
  • connection end face 461 a can be thoroughly cleaned.
  • the insertion portion 420 can be easily removed by pulling in the direction opposite to when inserting the cleaning tool 41 (disengagement direction).
  • the outer surface of the housing 462 of the optical plug 460 advances into the internal space 454 of the guide cap 450 while being positioned by the internal walls of the guide cap 450 .
  • the cleaning tapes 42 A to 42 C are positioned to be abutted on an appropriate position (here, the optical fiber holes 461 b and periphery thereof) of the connection end face 461 a of the optical plug 460 .
  • connection end face 461 a of the optical plug 460 and the abutting portion 42 a of the cleaning tape of the insertion portion 420 is appropriately guided by the guide cap 450 , cleaning of the connection end face 461 a of the optical plug 460 in the guide cap 450 can be easily carried out similarly to the case of the connection end face 461 a of the optical plug 460 in the aforementioned optical adaptor 470 .
  • connection end face 461 a of the optical plug 460 in the optical adaptor 470 can be cleaned in the state of being housed in the optical adaptor 470 and, by mounting the guide cap 450 on the insertion portion 420 , the connection end face 461 a of the optical plug 460 outside the optical adaptor 470 can also be cleaned. Since any optical plug can be cleaned by one type of cleaning tool, the number of articles required for cleaning work can be reduced.
  • the guide cap 450 By closing the lid 455 of the guide cap 450 and attaching to the insertion portion 420 , the guide cap 450 functions as a cap preventing exposure of the cleaning tapes 42 A to 42 C from the opening portion 426 of the insertion portion 420 when not in use (cleaning work), thereby preventing contamination of the interior of the guide cap 450 and the cleaning tapes 42 A to 42 C and the like during storage or transport of the cleaning tool 41 .
  • the head member 423 is able to tilt with respect to the pushing pressure when the distal end face 424 abuts the connection end face 461 a of the optical plug 460 , even in the event of the ferrule 461 with a perpendicularly polished connection end face 461 a as shown in FIG. 71 being abutted, and even in the event of the ferrule 461 with an obliquely polished connection end face 461 a as shown in FIG. 72 being abutted, the direction of the distal end face 424 is aligned with the direction of the connection end face 461 a , and the cleaning tape 42 a on the distal end face 424 can be more uniformly and securely made to abut on the connection end face 461 a .
  • the pushing pressure is not concentrated locally but acts more uniformly between the distal end face 424 of the head member 423 and the connection end face 461 a of the ferrule 461 , enabling the connection end face 461 a to be reliably cleaned all over.
  • the compression spring 442 and the like elastically deforms, causing the head composite body 44 to recede in the direction opposite to the insertion direction, which can relax the pushing pressure of the ferrule 461 on the head member 423 . Accordingly, when the head member 423 abuts the ferrule 461 by inserting the insertion portion 420 from the connector insertion port 471 , the head member 423 can accommodate the pressure while relaxing the force from the ferrule 461 with the tilting spring 441 without the pressing force being directly applied strongly. Thereby, damage to the connection end face 461 a and the optical fiber 463 a end faces can be suppressed.
  • the head member 423 alleviates the fluctuation in pushing pressure pressing the ferrule 461 , inhibits the application of excessive pushing pressure to the connection end face 461 a , and so can suppress damage to the connection end face 461 a and the optical fiber 463 a end faces. Also, dirt is inhibited from being pushed against the ferrule 461 and the like of the optical connector 460 side and becoming stuck thereon, enabling the dirt to be readily removed.
  • the compression spring 442 Since the amount of backward displacement of the distal end face 424 of the head member 423 can be secured by the compression spring 442 , it can be adapted even to optical components such as optical plugs and optical transceivers with different optical reference planes, enabling cleaning with the position of the cleaning tape 42 a aligned with the connection end face.
  • the cleaning tape 42 a not making good contact with the connection end face 461 a due to shifting of the center locations of the connection end face 461 a of the optical plug 460 and the distal end face 424 of the head member 423 , and the abutting force of the connection end face 461 a abutting the cleaning tape 42 a becoming uneven is inhibited, thereby enabling more secure removal of contaminants on the connection end face 461 a.
  • the insertion portion 420 is positioned by the connector housing hole 472 of the optical adaptor 470 during cleaning as well, wiping and cleaning of the connection end face 461 a can be performed by the abutting portion 42 a of the cleaning tape with a uniform pushing pressure without displacement.
  • the insertion portion 420 can be supported in the optical adaptor 470 with an extremely light force, and so has excellent operability.
  • the cleaning tool of the seventh embodiment can be manufactured by assembling inflammable materials such as POM or PS without using metal components such as screws, it can be disposed of by incineration after use without disassembly.
  • the distal end face of the head portion is tiltable in the thickness direction (vertical direction in FIG. 67D , for example) of the insertion portion due to elastic deformation of a spring portion, but the present invention is not particularly limited to this.
  • the distal end face of the head portion may be tiltable in the width direction (for example, leftward and rightward in FIG. 67D ) of the insertion portion.
  • a constitution can be adopted that is tiltable in both the thickness direction and the width direction of the insertion portion.
  • the direction of the head portion of the insertion portion and the direction of the connection end face of the ferrule can be brought into better alignment, thereby enabling better cleaning of the connection end face.
  • the head portion when the head portion is one that is able to recede in a direction opposite the connection end face (separation direction), it preferably can make the pushing pressure applied to the ferrule appropriate.
  • unit insertion portions which, by insertion into different connector housings, are to be positioned within the connector housing are formed at a plurality of locations in the protruding direction of the insertion portion, and the unit insertion portions of the insertion portion may be formed so as to be insertable in all connector housings capable of housing the unit insertion portions positioned relatively to the rear in the protruding direction of the insertion portion.
  • the insertion portion can be inserted so as to be positioned with respect to different connector housings by the unit insertion portions, so that, using a single cleaning tool, cleaning of a connection end face of an optical connector in the connector housing can be carried out in compliance with a plurality of types and sizes of connector housing.
  • the insertion portion can be constituted as one in which a plurality of kinds of insertion portions are exchangeable with respect to the tool body. This enables cleaning of the connection end face of an optical connector in a connector housing in compliance with the type and size of the connector housing just by changing the insertion portion without changing the tool body.
  • the driving mechanism for feeding the tape is not limited to one that is manually driven, and may be made to be driven by power from a motor or spring and the like. Also, manual driving and driving by motive power can be made to be used in combination or be switchable as required.
  • the insertion portion is made to completely cover the cleaning tape, except for the opening formed at the distal end of the insertion portion, but is not necessarily limited thereto. If the cleaning tape is prevented from being contaminated by contact with the inner walls of the connector housing and the like when inserting the insertion portion in the connector housing, the shape or structure is not particularly limited, and does not necessarily need to be sleeve shaped.
  • the feeding amount notification mechanism it is possible to adopt an optional mechanism to notify the amount of feeding of the cleaning tape by, for example, emitting a signal such as a sound or lighting/flashing of a lamp in accordance with the feeding amount of the cleaning tape, without limiting to the constitution of the seventh embodiment.
  • the cleaning tool of the aforementioned seventh embodiment as an optical component cleaning tool used for optical components such as optical fiber arrays, planar lightwave circuits and optical transceivers, can be used for cleaning the end face of an optical component at which the end face of a lightwave circuit (an optical fiber being possible) is disposed.
  • the optical fiber arrays may include one serving as an end face by its optical fibers being retained in one or a plurality of positioning grooves such as V-grooves positioned side by side that are formed on a substrate, the positioning grooves extending to at least one end of the substrate, and the end face of the optical fibers being arranged at one end of the substrate.
  • positioning grooves such as V-grooves positioned side by side that are formed on a substrate, the positioning grooves extending to at least one end of the substrate, and the end face of the optical fibers being arranged at one end of the substrate.
  • Various constitutions are also known of optical components having planar lightwave circuits.
  • the optical component cleaning tool of the present invention even in the case of the end face of the optical component being disposed in a recess of a housing or the like, instead of the connection end face of the optical connector, the end face of another optical component, that is the end face the an optical fiber or the end face of a substrate or the like, can be cleaned by a cleaning tape wrapped around a head.
  • FIGS. 81A to 104D are views showing the eight embodiment of the optical connector cleaning tool of the present invention (hereafter simply referred to as the “cleaning tool”).
  • an optical connector plug 560 (sometimes referred to hereafter simply as an optical plug) and an optical connector adaptor 570 (connector housing. Sometimes referred to hereafter simply as an optical adaptor) to which a cleaning tool 51 of the eight embodiment is applied are Multifiber Push-On (MPO) type optical connectors defined according to JIS C 5982.
  • MPO Multifiber Push-On
  • the optical plug 560 is an optical connector plug of a constitution housing a Mechanically Transferable (MT) type optical connector ferrule 561 (hereafter simply referred to as a ferrule) defined according to JIS C 5981 at a distal end portion of a plastic sleeve-shaped housing 562 , with the whole plug being formed in a low profile sectional shape in appearance.
  • MT Mechanically Transferable
  • the direction corresponding to the low-profile, short side (vertical direction in FIG. 101 ) of the ferrule 561 of the optical plug 560 is referred to as the thickness direction
  • the direction corresponding to the long side is referred to as the width direction (horizontal direction in FIG. 101 ).
  • thickness direction and width direction are also similarly used for the optical adaptor 570 connected with the optical plug 560 and an insertion portion 520 (described below) of the cleaning tool 51 inserted in the optical adaptor 570 to correspond to the thickness direction and the width direction of the ferrule 561 .
  • optical fiber holes 561 b are opened so as to be arrayed near a center location 566 of a connection end face 561 a of the ferrule 561 .
  • an optical fiber 563 is a four-fiber optical fiber tape ribbon, with optical fibers 563 a having their resin coating removed at the distal end portion thereof (bare optical fibers) inserted into the optical fiber holes 561 b in the ferrule 561 . By doing so they are terminated to be butt-connectable with another optical connector and penetrate the inside of the optical plug 560 to be drawn out from the back end of the optical plug 560 .
  • the optical fiber 563 may be one having a single core, one having multi-core, an optical fiber cord having such a single core housed in a tube, an optical fiber cord having such multi-core housed in a tube, or the like.
  • Guide-pin holes 561 c are provided in the connection end face 561 a of the ferrule 561 on both sides of the outside of the optical fiber holes 561 b in the width direction.
  • Ferrules 561 are aligned with each other to a high degree of accuracy by a positioning mechanism of a widely-known guide-pin fitting system whereby protruding members 565 (guide pins) are provided so as to be inserted into the guide-pin holes 561 c and protrude from the connection end face 561 a , with the end faces of the optical fibers 563 a being connected by butt-coupling.
  • the optical fibers 563 terminated in the ferrules 561 are thus optically connected.
  • the optical adaptor 570 is formed in a sleeve shape in which both sides of a connector housing hole 572 are opened as connector insertion ports 571 . By inserting the optical plug 560 from the connector insertion port 571 , it can be housed in the connector housing hole 572 .
  • the optical adaptor 570 as in the present invention is an all-inclusive term for relay equipment that positions, connects and fixes optical plugs 560 on both sides thereof. Accordingly, the optical plugs 560 on both sides connected to the optical adaptor 570 are not limited to those shaped the same as each other. Even if optical plugs with different shapes are connectable, it is termed an optical adaptor.
  • the optical plug 560 When the optical plug 560 is inserted from the connector insertion port 571 in the optical adaptor 570 , it is housed in the connector housing hole 572 while displacement in a direction deviating from the insertion direction is restricted.
  • the ferrules 561 When two optical plugs 560 are inserted in the optical adaptor 570 , the ferrules 561 are butted against each other within the adaptor 570 , with the optical fibers 563 terminated by the ferrules 561 being thereby optically connected.
  • the optical adaptor 570 similarly to the widely known MPO type connector there is provided a key groove 572 a on an inner wall 570 a of the optical adaptor 570 to engage with a key 562 a formed on the housing 562 of the optical plug 560 .
  • the key 562 a and the key groove 572 a are formed only on one of the surfaces on both sides in the thickness direction of the housing 562 of the optical plug 560 and the connector insertion port 571 of the optical adaptor 570 , respectively.
  • the orientation of the key 562 a and the key groove 572 a do not match, the optical plug 560 cannot be inserted into the connector insertion port 571 of the optical adaptor 570 .
  • connection end face 561 a of the optical plug 560 being obliquely polished (polished into an oblique plane)
  • errors of inserting the optical plug 560 in the optical adaptor 570 with its orientation in the thickness direction reversed (reverse insertion) are thereby prevented.
  • optical adaptor 570 although not particularly illustrated, there are provided elastic engaging pieces formed extending toward the connector insertion port 571 along inner walls 570 a of the optical adaptor 570 and having engaging claws on the distal end thereof as widely known.
  • engaging recesses capable of engagement with the engaging claws of the elastic engaging pieces of the optical adaptor 570 are provided on the surfaces of both sides in the width direction of the housing 562 of the optical plug 560 .
  • a coupling 568 is mounted for pressing the elastic engaging pieces from the outside to prevent release of engagement with the engaging recesses when the engaging claws and the engaging recesses are engaged.
  • the optical plug 560 When the optical plug 560 is inserted into the optical adaptor 570 from the connector insertion port 571 , it is housed in the connector housing hole 572 while displacement in a direction deviating from the insertion direction is restricted by the engagement of the engaging recesses and the engaging claws.
  • the cleaning tool 51 capable of being applied to cleaning of the connection end face 561 a of the optical plug 560 is as shown in FIGS. 81A through 85 and FIG. 99 provided with a tool body 510 having cleaning tapes 52 A to 52 C housed therein and an insertion portion 520 set to protrude from the tool body 510 and formed to be insertable in the connector housing hole 572 of the optical adaptor 570 .
  • the tool body 510 tapers toward the insertion portion 520 , with the insertion portion 520 formed at the protruding distal end of a narrow portion 519 of the tool body 510 distal end portion (the end at the left side in FIG. 81A ).
  • the tool body 510 here is a two-split structure of first and second case half-bodies 511 , 512 made of plastic such as polystyrene (PS) or polyoxymethylene ( 10 M, polyacetal).
  • PS polystyrene
  • 10 M polyoxymethylene
  • the first and second case half-bodies 511 , 512 are constituted to be able to be integrated together by the engagement of fitting pins 513 a to 513 e and fitting holes 514 a to 514 e formed to be disposed oppositely on the inner sides of the first case half-body 511 and the second case half-body 512 .
  • this is merely one example of the constitution of the tool body 510 and is not meant to particularly limit the present invention.
  • an abutting portion 52 a of the cleaning tapes 52 A to 52 C disposed facing an opening portion 526 in the distal end of the insertion portion 520 is positioned to be abuttable against the connection end face 561 a of the optical plug 560 .
  • the abutting portion 52 a of the cleaning tapes 52 A to 52 C is the portion positioned on a distal end face 524 of a head member 523 (to be described in detail hereinafter), with the abutting portion 52 a being replaced along the longitudinal direction of the cleaning tape by feeding movement of the cleaning tape.
  • a total of three cleaning tapes are employed, with one, 52 A, cleaning a central region E 1 that is a portion positioned between the guide pin holes 561 c and those 52 B, 52 C cleaning outside regions E 2 , E 2 positioned outside the central region E 1 via the guide pin holes 561 c within the connection end face 561 a of the optical connector shown in FIG. 99 .
  • the widths of the cleaning tapes 52 A, 52 B, 52 C are made to match the widths of the regions to be cleaned E 1 , E 2 .
  • the width of the cleaning tape 52 A that cleans the central region. E 1 is wider than the widths of the tapes 52 B, 52 C that clean the outside regions E 2 .
  • the cleaning tapes 52 A to 52 C are not particularly limited, and ones can be adopted in which a publicly known suitable cleaning fabric (unwoven or woven fabric) is processed into a tape shape. For example, those made from an extra-fine fiber such as polyester or nylon are exemplified. In addition, the structure is also generally one with a roughly fixed width.
  • the cleaning tapes 52 A, 52 B, 52 C are mutually separated tapes, and as shown in FIG. 102 , there are gaps 55 between the cleaning tape 52 A of the central portion and the cleaning tapes 52 B, 52 C of both sides.
  • the guide pins 565 escape into the gaps 55 of the cleaning tapes 52 A to 52 C, and the central region E 1 and the outside regions E 2 , E 2 of the connection end face 561 a can be efficiently cleaned simultaneously. That is, the gaps 55 function as protruding member escape portions.
  • a projecting wall 519 a for reinforcing the narrow portion 519 is provided in the interior of the narrow portion 519 of the tool distal end portion. Since the path of the upstream side portion 52 b of the cleaning tapes 52 A to 52 C that should be clean (hereafter referred to at times as the “upstream portion”) heading from a supply reel 530 to the head member 523 and the path of the downstream side portion 52 c of the cleaning tapes 52 A to 52 C that are soiled from wiping and cleaning (hereafter referred to at times as the “downstream portion”) heading from the head member 523 toward a take-up reel 531 are partitioned by this projecting wall 519 a , it exhibits the effect of suppressing migration of contaminants on the cleaning tapes 52 A to 52 C.
  • the insertion portion 520 is a two-split structure similar to the tool body 510 , being formed by integration of insertion portion half-bodies 520 a , 520 b integrally formed with the case half-bodies 511 , 512 , respectively, accompanying the integration of the case half-bodies 511 , 512 .
  • Engaging recesses 521 for avoiding interference with the engaging claws of the elastic engaging pieces (described above) on the optical adaptor 570 when the insertion portion 520 is inserted in the optical adaptor 570 are formed on both sides in the width direction of the outer surface of the insertion portion 520 .
  • the engaging recesses 521 are not particularly necessary.
  • a key 522 to engage with a key groove 572 a on the optical adaptor 570 is provided in a protruding manner on the insertion portion 520 , whereby reverse insertion with respect to the optical adaptor 570 is blocked.
  • a head composite body 54 having the head member 523 for causing the cleaning tape 52 a to abut the connection end face 561 a of the ferrule 561 is mounted at the distal end portion of the cleaning tool including the insertion portion 520 .
  • the head composite body 54 is constituted to include the head member 523 having the distal end face 524 facing the connection end face 561 a of the optical plug 560 to be cleaned during cleaning and a support mechanism 540 coupled to the side of a back face 527 of the head member 523 that is the side reverse to the distal end face 524 from the head member 523 and supports the head member 523 .
  • the head composite body 54 is one in which the head member 523 and the support mechanism 540 are integrally formed, and can be manufactured from plastic such as polyoxymethylene (POM) using a suitable molding method.
  • plastic such as polyoxymethylene (POM)
  • the head composite body 54 is disposed between the upstream portion 52 b of the cleaning tapes 52 A to 52 C that is the supply reel 530 side of the head member 523 and the downstream portion 52 c of the cleaning tapes 52 A to 52 C that is the take-up reel 531 side of the head member 523 . For this reason, the head composite body 54 does not inhibit feeding movement of the cleaning tapes 52 A to 52 C.
  • the head member 523 has an approximately rectangular-shaped distal end face 524 and is able to effectively secure an abutting area with respect to the connection end face 561 a of the optical plug 560 .
  • the distal end face 524 is provided at the insertion distal end (left side in FIGS. 95A , 95 B) of the head member 523 , and is exposed to the opening portion 526 of the insertion portion 520 distal end.
  • a pair of guide pin insertion holes 523 a are formed on both sides in the width direction of the insertion portion 520 as protruding member escape portions that can pass the protruding members (guide pins) 565 protruding from the connection end face 561 a .
  • the guide pin insertion holes 523 a penetrate from the distal end face 524 of the head member 523 to the back face 527 . Thereby, when the insertion portion 520 is inserted into the optical adaptor 570 , interference between the head member 523 and the guide pins 565 can be avoided.
  • guide grooves 525 A, 525 B, 525 C to guide the feeding of the cleaning tapes 52 A to 52 C are provided on the head member 523 to oppose each other via the distal end face 524 .
  • These guide groves 525 A, 525 B, 525 C function as a tape positioning mechanism.
  • Three pair of the guide grooves 525 A, 525 B, 525 C are provided, corresponding respectively to the cleaning tapes 52 A, 52 B, 52 C.
  • the widths of the guide grooves 525 A, 525 B, 525 C fit the widths of the cleaning tapes 52 A, 52 B, 52 C.
  • the cleaning tapes 52 A, 52 B, 52 C are wrapped around the head member 523 by the guide grooves 525 A, 525 B, 525 C on the upstream side and downstream side of the distal end face 524 .
  • the guide pin insertion holes 523 a are disposed so as to open in the gaps 55 of the cleaning tapes 52 A, 52 B, 52 C guided by the guide grooves 525 A, 525 B, 525 C.
  • the guide pins 565 , 565 can thereby pass between the cleaning tapes 52 A, 52 B, 52 C and be inserted in the guide pin insertion holes 523 a , avoiding interference with the cleaning tapes 52 A, 52 B, 52 C.
  • the support mechanism 540 has a tilting spring 541 protruding from the recess 527 a formed in the back face 527 of the head member 523 , a compression spring 542 coupled to the tilting spring 541 , and a plate-shaped base portion 543 connected to the side of the compression spring 542 opposite the tilting spring 541 .
  • the base portion 543 is fixed to mounting recesses 529 formed in the case of the cleaning tool (specifically, on the inner surface of the narrow portion 519 of the tool body 510 ).
  • the compression spring 542 functions as a coupling portion that expansively connects the tilting spring 541 and the base portion 543 .
  • the shape and the like of the tilting spring 541 is not particularly limited, and as shown in FIGS. 95A , 95 B, it is formed in a waveform having a plurality of rotational central axes 541 a , 541 b , 541 c by means of bending curvature portions. These rotational central axes 541 a , 541 b , 541 c all extend in the width direction of the insertion portion 520 (the direction perpendicular to the sheet of FIG. 95B ).
  • At least one of the rotational central axes (here, 541 b ) is disposed in a position displaced in the thickness direction of the insertion portion 520 (vertical direction in FIG. 95B ). It is in a twisted position (a positional relation of two straight lines in a space that neither intersect nor are parallel) with respect to a straight line G extending in the insertion direction (rightward in FIG. 95B ) of the optical connector 560 from the center location 524 c on the distal end face 524 of the head member 523 .
  • the bending curvature portion 541 b is rounded, so that even if the cleaning tape (downstream portion) 52 c touches, there is no risk of it being damaged. In addition, even if the cleaning tape 52 c touches the bending curvature portion 541 b , it is the back face opposite the surface of the side that cleans the ferrule 561 , and so there is no problem of migration of contaminants.
  • the compression spring 542 is a pair of waveform springs symmetrically disposed in the width direction (vertical direction in FIG. 95A ) of the insertion portion 520 .
  • Corner portions 542 c on the distal end thereof are housed in a pair of slide grooves 528 provided in the inner walls of both sides in the width direction of the insertion portion 520 .
  • the slide grooves 528 extend in the insertion and separation direction of the insertion portion 520 (horizontal direction in FIGS. 95A and 95B ) and have end portion walls 528 a that close the end portion of the distal end (left side in FIGS. 95A , 95 B) of the insertion portion 520 .
  • the compression spring 542 When a pushing pressure does not act on the distal end face 524 of the head member 523 , the compression spring 542 , by its own springing force, biases the corner portions 542 c of the compression spring 542 , causing them to abut the end portion walls 528 a of the slide grooves 528 .
  • the corner portions 542 c of the compression spring 542 are slidable in both directions along the slide grooves 528 by extension of the compression spring 542 .
  • the base portion 543 is formed as a plate-shaped member so as to approximately plug the inner cross-section of the insertion portion 520 .
  • the base portion 543 is housed in the pair of mounting recesses 529 provided in a concave manner in opposition on both sides in the thickness direction of the narrow portion 519 of the tool distal end.
  • the base portion 543 has an approximately semi-cylindrical fitting portion 543 a that fits a fitting groove 529 a formed in one of the mounting recesses 529 .
  • the compression spring 542 When fitting together the case half-bodies 511 , 512 , by respectively housing the compression spring 542 in the slide grooves 528 and the base portion 543 in the mounting recesses 529 , the compression spring 542 is compressed, and by the biasing force of the compression spring 542 , the head composite body 54 is mounted between end portion walls 528 a of the slide grooves 528 and a projecting wall 529 b that protrudes on the rear-end side of the mounting recess 529 . The head composite body 54 is attached so that the fitting portion 543 a fits into the fitting groove 529 a.
  • long holes 544 A, 544 B, 544 C through which the cleaning tapes are inserted are provided on the base portion 543 .
  • three pair of the long holes 544 A, 544 B, 544 C are provided, corresponding to the three cleaning tapes 52 A, 52 B, 52 C.
  • the upstream side tape 52 b and the downstream side tape 52 c of the head member 523 are inserted into each pair of the long holes 544 A, 544 B, 544 C.
  • the cleaning tapes 52 A, 52 B, 52 C do not come off the head composite body 54 , leading to good attachment workability even when the cleaning tapes 52 A, 52 B, 52 C are a plurality (here, three).
  • the long holes 544 A, 544 B, 544 C are stepped in accordance with the thickness direction (vertical direction in FIG. 90D ) of the insertion portion 520 instead of being arranged in a row in the width direction of the insertion portion 520 . This is in order to be able to ensure that the dimensions of the long holes 544 A, 544 B, 544 C in the width direction are sufficiently larger than the widths of the cleaning tapes 52 A, 52 B, 52 C to be inserted without merging into each other.
  • the aforementioned head composite body 54 is constituted so that when a pushing pressure against the head member 523 is transmitted to the compression spring 542 , the head member 523 is able to retreat in the separation direction (rightward in FIGS. 96 and 97 ) of the insertion portion 520 .
  • FIG. 96 shows the case of the connection end face 561 a of the optical plug 560 being perpendicularly polished with respect to the optical axis (longitudinal direction in FIG. 96 ).
  • FIG. 97 shows the case of the connection end face 561 a of the optical plug 560 being obliquely polished with respect to the optical axis.
  • FIG. 97 shows the state of the head member 523 tilted upward.
  • connection end face 561 a of the optical plug 560 being one that is obliquely polished
  • angle ⁇ the angle formed by the feeding direction of the upstream side cleaning tape 52 b supplied to the head member 523 and the feeding direction of the cleaning tape 52 a moving along the distal end face 524 of the head member 523 is an acute angle.
  • angle ⁇ formed by the feeding direction of the cleaning tape 52 a moving along the distal end face 524 of the head member 523 and the feeding direction of the downstream side cleaning tape 52 c sent away from the head member 523 is an obtuse angle.
  • the aforementioned angle ⁇ is smaller than the aforementioned angle ⁇ ( ⁇ ).
  • the relationship of the aforementioned angles ⁇ , ⁇ becoming ⁇ > ⁇ is prevented by engagement of a key and a key groove to prevent reverse insertion, such as engagement of the key 562 a of the optical plug 560 and the key groove 572 a of the optical adaptor 570 , and engagement of the key 522 of the insertion portion 520 of the cleaning tool 51 and the key groove 572 a of the optical adaptor 570 .
  • the cleaning tape contacts the guide grooves 525 A to 525 C of the head member 523 at the upstream side 52 b of the distal end face 524 , and is in a state raised from the guide grooves 525 A to 525 C of the head member 523 at the downstream side 52 c . Because of this, when the cleaning tapes 52 a to 52 c are fed in the feeding direction (the direction shown by the straight arrows in FIG.
  • the head member 523 is rotated in the feeding direction of the cleaning tapes 52 a to 52 c by the friction between the upstream portion 52 b of the cleaning tapes and the head member 523 , which acts to press the cleaning tape 52 a onto the connection end face 561 a .
  • the friction between the cleaning tape 52 c and the head member 523 is relatively less, and so the rotating action in the direction of pulling the head member 523 and the cleaning tape 52 a away from the connection end face 561 a is small. Accordingly, the cleaning tape 52 a abuts the connection end face 561 a well, and the cleaning efficiency of the connection end face 561 a improves.
  • connection end face 561 a of the optical plug 560 is abutted on the distal end face 524 of the head member 523 , the rotational axis line of the bending curvature portion 541 b is in a twisted position (a positional relation of two straight lines in a space that neither intersect nor are parallel) with respect to a straight line F extending in the insertion direction (rightward in FIGS. 96 and 97 ) of the optical connector 560 from the center location 566 of the connection end face 561 a of the optical plug 560 .
  • connection end face 561 a of the optical plug 560 can be in a positional relation aligned with the center location 524 c on the distal end face 524 of the head member 523 , with no uneven contact, so that the pushing pressure onto the connection end face 561 a acts sufficiently uniformly. Accordingly, the connection end face 561 a can be uniformly cleaned by the cleaning tape.
  • the distance between the straight line F and the rotational axis line of the bending curvature portion 541 b (rotational radius) is secured, the torque produced centered on the rotational central axis by the pushing pressure applied to the distal end face 524 of the head member 523 from the connection end face 561 a is secured, thereby facilitating smooth rotation of the head member 523 , and the distal end face 524 of the head member 523 easily follows the direction of the connection end face 561 a.
  • a scraper 580 abuts the portion of the cleaning tape supplied to the head member 523 (upstream portion 52 b of the tape).
  • the scraper 580 is disposed in a position between the supply reel 530 and the head member 523 in the path of the cleaning tapes 52 A to 52 C.
  • the scraper 580 is, for example, formed in a roughly L-shaped cross section, constituted from a base portion 582 integrated with the case of the tool body 510 and a protruding plate portion 581 provided in a protruding manner from the base portion 582 to the inner space of the case.
  • the scraper 580 may be integrally resin molded with either one of the case half-bodies 511 , 512 , or it may be integrated with the case by bonding a separately molded component with the case half-bodies 511 , 512 .
  • the direction in which protruding plate portion 581 of the scraper 580 protrudes from the base portion 582 is in the present embodiment slightly tilted to the downstream side with respect to the feeding direction of the cleaning tapes 52 A to 52 C (the direction heading from left to right in FIG. 92 .) as shown in FIGS. 82B and 92 .
  • the protruding direction of the protruding plate portion 581 is not particularly limited, and it may tilt to the upstream side with respect to the feeding direction of the tapes 52 A to 52 C or be perpendicular to the feeding direction of the tapes 52 A to 52 C.
  • guide grooves 583 that prevent shifting of the cleaning tapes 52 A to 52 C in the width direction are formed at the distal end portion of the protruding plate portion 581 of the scraper 580 .
  • Three guide grooves 583 are provided, corresponding to the cleaning tapes 52 A, 52 B, 52 C.
  • the widths of the guide grooves 583 match the widths of the cleaning tapes 52 A, 52 B, 52 C.
  • a distal end portion 584 of the protruding plate portion 581 that abuts the cleaning tapes 52 A to 52 C may be flat.
  • the distal end portion of the scraper 580 abuts the cleaning surface of the cleaning tapes 52 A to 52 C (the outside surface in the path of the tapes, the surface that abuts the connection end face 561 a .
  • FIG. 92 the underside surface.
  • the upstream portion 52 b of the tape stretched between the head member 523 and the guide pin 536 is pushed slightly to the inside (upward in FIG. 92 ) of the tape path by the scraper 580 .
  • the abutting force between the tape and the scraper 580 is secured, so that foreign matter adhering to the cleaning tape is scraped off by the scraper 580 during the feeding movement of the cleaning tapes 52 A to 52 C.
  • a guide cap 550 has a guide body 551 formed in an approximately sleeve shape (tube shape) from plastic and the like and a lid 555 connected to one end of the guide body 551 by a hinge 556 .
  • a fitting hole 555 a that fits a projection 551 a provided in a protruding manner on the guide body 551 is formed in the lid 555 , so that by flexing the hinge 556 to fit the fitting hole 555 a of the lid 555 with the projection 551 a on the guide body 551 , the lid 555 can be maintained in a closed state.
  • the end of the guide body 551 on the lid 555 side has a plug insertion port 552 (first port) in which the optical plug 560 is inserted, and the other end opposite the plug insertion port 552 has an insertion portion insertion port 553 (second port) in which the insertion portion 520 of the cleaning tool 51 is inserted.
  • the plug insertion port 552 and the insertion portion insertion port 553 are interconnected through an internal space 554 of the guide cap 550 .
  • the guide cap 550 can house the distal end portion of the optical plug 560 including the connection end face 561 a and the insertion portion 520 of the cleaning tool 51 in the internal space 554 of the guide cap 550 in a state of facing each other.
  • a key groove 557 a to fit a key 562 a provided in a protruding manner on the outer surface of the housing 562 of the optical plug 560 is provided on an inner wall on the plug insertion port 552 side of the guide body 551 .
  • a key groove 557 b to fit a key 522 provided in a protruding manner on the outer surface of the insertion portion 520 of the cleaning tool 51 is provided on the inner wall of the insertion portion insertion port 553 side of the guide body 551 .
  • the optical plug 560 and the insertion portion 520 of the cleaning tool 51 cannot be inserted into the guide body 551 .
  • the connection end face 561 a of the optical plug 560 being obliquely polished, errors of inserting the optical plug 560 in the guide cap 550 with its orientation in the thickness direction reversed (reverse insertion) are thereby prevented.
  • the guide cap 550 is detachably mounted on the insertion portion 520 . More specifically, when cleaning of the optical plug 560 is not being carried out, the guide cap 550 can be in a state of the insertion portion 520 of the cleaning tool 51 inserted in the insertion portion insertion port 553 . In addition, as shown by the chain double-dashed line in FIG. 94A , closing the lid 555 that covers up the plug insertion port 552 of the guide cap 550 can inhibit ingress of debris, dust and water and the like into the internal space 554 of the guide cap 550 , thereby enabling the internal space 554 to be constantly maintained in a clean state.
  • a tape feeding mechanism (hereinafter referred to on occasion as “tape feeding mechanism 53 ”) that feeds the cleaning tapes 52 A to 52 C is provided in a storage space 535 of the tool body 510 as a driving mechanism.
  • This tape feeding mechanism 53 is provided with the supply reel 530 wound with the cleaning tapes 52 A to 52 C, the take-up reel 531 that takes up and collects the cleaning tapes 52 A to 52 C after use, and an operation dial 534 that operates the feeding of the cleaning tapes 52 A to 52 C.
  • the supply reel 530 , the take-up reel 531 and the operation dial 534 can be manufactured by forming from plastic such as polystyrene (PS) or polyoxymethylene (POM, polyacetal) with a mold.
  • plastic such as polystyrene (PS) or polyoxymethylene (POM, polyacetal) with a mold.
  • a supply reel support shaft 532 on which the supply reel 530 is rotatably mounted and a take-up reel support shaft 533 on which the take-up reel 531 and the operation dial 534 are rotatably mounted are provided to protrude toward the second case half-body 512 .
  • the supply reel support shaft 532 and the take-up reel support shaft 533 are integrally formed with one case half-body 511 .
  • both case half-bodies 511 , 512 are bridged in the storage space 535 to be able to hold the supply reel 530 and the take-up reel 531 without dropping them.
  • the cleaning tapes 52 A to 52 C are stretched in the storage space 535 along pin-shaped tape guides 536 . Midway, they are wrapped around the head member 523 housed in the insertion portion 520 . As shown in FIG. 82A , 82 B, here the tape guides 536 are provided as the outer circumferential surface of the fitting pins 513 a , 513 b provided in a protruding manner from the first case half-body 511 .
  • Ratchet grooves 532 c , 533 c extending in the axial direction of the reel support shafts 532 , 533 are provided around the outer circumference of the supply reel support shaft 532 and the take-up reel support shaft 533 . These ratchet grooves 532 c , 533 c can engage with a projection of a ratchet arm of the supply reel 530 and the take-up reel 531 described hereafter.
  • the same number (here, three) of the supply reels 530 and the take-up reels 531 are provided as the number of tapes 52 A, 52 B, 52 C.
  • the reels 530 , 531 are supported side by side by the supply reel support shaft 532 and the take-up reel support shaft 533 , respectively.
  • FIGS. 88A , 88 B and 89 show an example of the take-up reel 531 wound with the cleaning tape 52 A.
  • the take-up reel 531 is one in which a hollow cylindrical winding core portion 531 a and side plate portions 531 b , 531 b formed on both ends of the winding core portion 531 a are integrally formed from plastic or the like.
  • One cleaning tape is wound around one take-up reel 531 .
  • the spacing between the two side plate portions 531 b , 531 b is set to match the width of the cleaning tape wound therearound.
  • An insertion hole 531 h (through hole) that opens facing the outer circumferential surface 531 g of the winding core portion 531 a is formed in the winding core portion 531 a , and the insertion hole 531 h includes a narrow portion 531 k .
  • a way of attaching the end portion of the cleaning tape to the take-up reel 531 there are no particular limitations, however, as shown in FIGS. 88A and 88B , one way is to form a bunched-up knot 52 d at one end of the cleaning tape 52 A inserted in the insertion hole 531 h of the take-up reel 531 and prevent the knot 52 d from being pulled out of the narrow portion 531 k.
  • a ratchet arm 531 c is formed on the inner surface of the winding core portion 531 a of the take-up reel 531 .
  • An approximately semi-cylindrical projection 531 d is formed at the distal end of the ratchet arm 531 c facing the center in the radial direction of the take-up reel 531 .
  • a concave portion 531 e is formed on the inner surface of the winding core portion 531 a so as to accommodate the ratchet arm 531 c .
  • the ratchet arm 531 c is able by elastic deformation to allow the projection 531 d to oscillate in the radial direction of the take-up reel 531 .
  • the projection 531 d of the ratchet arm 531 c engages with the ratchet grooves 533 c provided around the periphery of the take-up reel support shaft 533 when the take-up reel is supported on the take-up reel support shaft 533 .
  • the projection 531 d repeatedly engages and disengages with the ratchet grooves 533 c due to elastic deformation of the ratchet arm 531 c , thereby imparting rotation resistance to rotation of the take-up reel 531 .
  • a constant tension force is required for the feeding movement of the cleaning tape, and slippage of the take-up reel 531 is suppressed.
  • the ratchet arm 531 c of the take-up reel 531 and the ratchet grooves 533 c of the take-up reel support shaft 533 function as a rotation resistance imparting mechanism 57 that imparts rotation resistance to rotation of the take-up reel 531 .
  • the constant tension force permitting the feeding movement of the cleaning tapes 52 A to 52 C is to an extent such that stretching of the cleaning tapes due to tensioning by the tape feeding mechanism 53 does not exert an adverse effect on cleaning, and such that the tapes cannot be fed just by swinging or carrying the cleaning tool 51 .
  • the take-up reels 531 around which the cleaning tapes 52 B, 52 C are spooled have the same constitution as the take-up reel 531 for the cleaning tape 52 A shown in FIGS. 88A and 88B , except for different spacing between their side plate portions 531 b , 531 b , and so their illustration is omitted.
  • reels similar to the take-up reels 531 can be used as the supply reels 530 .
  • a ratchet arm having a projection that engages with the ratchet grooves 532 c provided around the periphery of the supply reel support shaft 532 is provided on the supply reels 530 , and the aforementioned rotation resistance imparting mechanism is constituted.
  • the operation dial 534 is mounted on the outer circumference of the take-up reel support shaft 533 so as to be concentric with the take-up reel 531 .
  • the operation dial 534 is one in which a hub portion 534 a that is penetratingly installed in the take-up reel support shaft 533 , a rim portion 534 c that has a knurled surface on its periphery, and a plurality of spoke portions 534 b connecting the hub port ion 534 a and the rim portion 534 c are integrally formed from plastic and the like.
  • a ratchet arm 537 having an engaging claw 537 b formed in a protruding manner on the distal end of an arm portion 537 a extending in the circumferential direction of the operation dial 534 is provided on one of the plurality of spoke portions 534 b .
  • a hammer arm 538 having a hammerhead portion 538 b formed in a protruding manner at the distal end of an arm portion 538 a extending in the circumferential direction of the operation dial 534 is provided on another spoke portion 534 b .
  • the arm portions 537 a , 538 a of the ratchet arm 537 and the hammer arm 38 are elastically deformable.
  • a portion of the operation dial 534 is exposed to outside the tool body 510 from a window 511 a provided on a side surface of the tool body 510 .
  • the operation dial 534 and the take-up reel 531 are coupled so as to be integrated by fitting pins 534 p formed on the operation dial into insertion holes 531 p formed in the take-up reel 531 .
  • the radius of the operation dial 534 is greater than the radius of the take-up reel 531 .
  • the length of the cleaning tapes 52 A to 52 C spooled onto the take-up reel 531 is smaller than the amount of operation of the operation dial 534 (displacement amount along the outer circumference of the operation dial 534 ) by just as much as the radial ratio. For this reason, very small feeding amounts of the cleaning tapes 52 A to 52 C can be easily achieved.
  • the tape feeding mechanism 53 can be driven by operating the operation dial 534 by finger or the like to rotate it in the prescribed direction. More specifically, by rotation of the operation dial 534 , the take-up reel 531 rotates to take up the cleaning tapes 52 A to 52 C, and the unused cleaning tapes 52 A to 52 C are unreeled from the supply reel 530 and fed. Since the operation dial 534 is open to the side surface of the tool body 510 from the window 511 a , even if the cleaning tool 51 is held with one hand, the operation dial 534 can be easily operated by a finger of the hand holding the cleaning tool 51 .
  • annular wall portion 516 is formed on the inner surface of the first case half-body 511 , incorporating the take-up reel support shaft 532 .
  • a plurality of stranding projections 517 are formed at regular intervals along the periphery of the annular wall portion 516 on the outer circumference of the annular wall portion 516 .
  • a plurality of ratchet teeth 516 b are provided around the inner circumferential surface of the annular wall portion 516 .
  • the stranding projections 517 have inclined faces 517 a forming an acute angle with an outer circumferential surface 516 a of the annular wall portion 516 .
  • the inclined faces 517 a are provided on the side of the stranding projections 517 facing the rotation direction of the take-up reel 531 (the counterclockwise rotation direction in FIGS. 104A to 104D ).
  • Reverse rotation of the operation dial 534 is blocked by engagement of the engaging claw 537 b of the ratchet arm 537 with the ratchet teeth 516 b on the annular wall portion 516 .
  • the ratchet teeth 516 b and the ratchet arm 537 function as a reverse-feed blocking mechanism 56 to block reverse feeding of the cleaning tapes 52 A to 52 C (a reverse-rotation prevention mechanism to prevent reverse rotation of the take-up reel). Accordingly, the cleaning tapes 52 A to 52 C are stably fed in the prescribed direction, which can suppress slack in the cleaning tapes 52 A to 52 C.
  • a feeding amount notification mechanism that notifies the feeding amount of the cleaning tapes 52 A to 52 C is constituted from the stranding projections 517 of the annular wall portion 516 and the hammer arm 538 of the operation dial 534 . Consequently, feeding only as much of the cleaning tapes 52 A to 52 C as required for cleaning is easy and reliable cleaning can be carried out, so that wasteful usage of the cleaning tapes can be suppressed.
  • the feeding amount of the cleaning tapes 52 A to 52 C corresponding to one slapping sound can be made to serve as the feeding amount required for one cleaning of an optical connector.
  • multiple slapping sounds can be made to serve as the feeding amount corresponding to one cleaning of an optical connector. Operation is also possible by suitably changing the number of slapping sounds corresponding to one cleaning of an optical connector in accordance with the degree of dirtiness of the optical connector.
  • the insertion portion 520 of the cleaning tool 51 is inserted from the connector insertion port 571 of the optical adaptor 570 , the insertion portion 520 enters the connector housing hole 572 as its outer surface is aligned by the inner walls 570 a of the optical adaptor 570 , whereby the cleaning tapes 52 A to 52 C are positioned to be abutted on an appropriate position (here, the optical fiber holes 561 b and periphery thereof) of the connection end face 561 a of the optical plug 560 .
  • the guide pins 565 protrude on the connection end face 561 a of the optical plug 560 , the guide pins 565 are housed in the guide pin insertion holes 523 a provided on the head member 523 , enabling the insertion portion 520 to be housed in the connector housing hole 572 without interference with the guide pins 565 .
  • the cleaning tapes 52 A to 52 C move in conjunction with the rotation of the take-up reel 531 , and the connection end face 561 a is wiped and cleaned by the cleaning tapes 52 A to 52 C, with contaminants such as debris, dust and oil adhering to the connection end face 561 a being securely extracted by the cleaning tapes 52 A to 52 C.
  • connection end face 561 a can be thoroughly cleaned.
  • the insertion portion 520 can be easily removed by pulling in the direction opposite to when inserting the cleaning tool 51 (disengagement direction).
  • the outer surface of the housing 562 of the optical plug 560 advances into the internal space 554 of the guide cap 550 while being positioned by the internal walls of the guide cap 550 .
  • the cleaning tapes 52 A to 52 C are positioned to be abutted on an appropriate position (here, the optical fiber holes 561 b and periphery thereof) of the connection end face 561 a of the optical plug 560 .
  • connection end face 561 a of the optical plug 560 and the abutting portion 52 a of the cleaning tape of the insertion portion 520 is appropriately guided by the guide cap 550 , cleaning of the connection end face 561 a of the optical plug 560 in the guide cap 550 can be easily carried out similarly to the case of the connection end face 561 a of the optical plug 560 in the aforementioned optical adaptor 570 .
  • connection end face 561 a of the optical plug 560 in the optical adaptor 570 can be cleaned in the state of being housed in the optical adaptor 570 and, by mounting the guide cap 550 on the insertion portion 520 , the connection end face 561 a of the optical plug 560 outside the optical adaptor 570 can also be cleaned. Since any optical plug can be cleaned by one type of cleaning tool, the number of articles required for cleaning work can be reduced.
  • the cleaning tape abutting the scraper 580 is guided by the guide grooves 583 formed at the distal end portion of the scraper 580 , shifting in the width direction of the cleaning tapes is suppressed. Consequently, the scraper abuts the cleaning tapes with a more uniform abutting force, so that foreign matter adhering to the cleaning tapes can be more reliably scraped off.
  • the cleaning tapes 52 A to 52 C can be stably fed in the prescribed direction, and fluctuations in the tape feeding amounts and the like can be suppressed. Accordingly, tape slack is prevented and constant cleaning conditions are maintained so that reliable wiping and cleaning can be carried out.
  • connection end face 561 a of the optical connector can be more reliably cleaned.
  • the guide cap 550 By closing the lid 555 of the guide cap 550 and attaching to the insertion portion 520 , the guide cap 550 functions as a cap preventing exposure of the cleaning tapes 52 A to 52 C from the opening portion 526 of the insertion portion 520 when not in use (cleaning work), thereby preventing contamination of the interior of the guide cap 550 and the cleaning tapes 52 A to 52 C and the like during storage or transport of the cleaning tool 51 .
  • the head member 523 is able to tilt with respect to the pushing pressure when the distal end face 524 abuts the connection end face 561 a of the optical plug 560 , even in the event of the ferrule 561 with a perpendicularly polished connection end face 561 a as shown in FIG. 96 being abutted, and even in the event of the ferrule 561 with an obliquely polished connection end face 561 a as shown in FIG. 97 being abutted, the direction of the distal end face 524 is aligned with the direction of the connection end face 561 a , and the cleaning tape 52 a on the distal end face 524 can be more uniformly and securely made to abut on the connection end face 561 a .
  • the pushing pressure is not concentrated locally but acts more uniformly between the distal end face 524 of the head member 523 and the connection end face 561 a of the ferrule 561 , enabling the connection end face 561 a to be reliably cleaned all over.
  • the compression spring 542 and the like elastically deforms, causing the head composite body 54 to recede in the direction opposite to the insertion direction, which can relax the pushing pressure of the ferrule 561 on the head member 523 . Accordingly, when the head member 523 abuts the ferrule 561 by inserting the insertion portion 520 from the connector insertion port 571 , the head member 523 can accommodate the pressure while relaxing the force from the ferrule 561 with the tilting spring 541 without the pressing force being directly applied strongly. Thereby, damage to the connection end face 561 a and the optical fiber 563 a end faces can be suppressed.
  • the head member 523 alleviates the fluctuation in pushing pressure pressing the ferrule 561 , inhibits the application of excessive pushing pressure to the connection end face 561 a , and so can suppress damage to the connection end face 561 a and the optical fiber 563 a end faces. Also, dirt is inhibited from being pushed against the ferrule 561 and the like of the optical connector 560 side and becoming stuck thereon, enabling the dirt to be readily removed.
  • the compression spring 542 Since the amount of backward displacement of the distal end face 524 of the head member 523 can be secured by the compression spring 542 , it can be adapted even to optical components such as optical plugs and optical transceivers with different optical reference planes, enabling cleaning with the position of the cleaning tape 52 a aligned with the connection end face.
  • the cleaning tape 52 a not making good contact with the connection end face 561 a due to shifting of the center locations of the connection end face 561 a of the optical plug 560 and the distal end face 524 of the head member 523 , and the abutting force of the connection end face 561 a abutting the cleaning tape 52 a becoming uneven is inhibited, thereby enabling more secure removal of contaminants on the connection end face 561 a.
  • the insertion portion 520 is positioned by the connector housing hole 572 of the optical adaptor 570 during cleaning as well, wiping and cleaning of the connection end face 561 a can be performed by the abutting portion 52 a of the cleaning tape with a uniform pushing pressure without displacement.
  • the insertion portion 520 can be supported in the optical adaptor 570 with an extremely light force, and so has excellent operability.
  • the cleaning tool of the eighth embodiment can be manufactured by assembling inflammable materials such as POM or PS without using metal components such as screws, it can be disposed of by incineration after use without disassembly.
  • the distal end face of the head portion is tiltable in the thickness direction (vertical direction in FIG. 90D , for example) of the insertion portion due to elastic deformation of a spring portion, but the present invention is not particularly limited to this.
  • the distal end face of the head portion may be tiltable in the width direction (for example, leftward and rightward in FIG. 90D ) of the insertion portion.
  • a constitution can be adopted that is tiltable in both the thickness direction and the width direction of the insertion portion.
  • the direction of the head portion of the insertion portion and the direction of the connection end face of the ferrule can be brought into better alignment, thereby enabling better cleaning of the connection end face.
  • the head portion when the head portion is one that is able to recede in a direction opposite the connection end face (separation direction), it preferably can make the pushing pressure applied to the ferrule appropriate.
  • unit insertion portions which, by insertion into different connector housings, are to be positioned within the connector housing are formed at a plurality of locations in the protruding direction of the insertion portion, and the unit insertion portions of the insertion portion may be formed so as to be insertable in all connector housings capable of housing the unit insertion portions positioned relatively to the rear in the protruding direction of the insertion portion.
  • the insertion portion can be inserted so as to be positioned with respect to different connector housings by the unit insertion portions, so that, using a single cleaning tool, cleaning of a connection end face of an optical connector in the connector housing can be carried out in compliance with a plurality of types and sizes of connector housing.
  • the insertion portion can be constituted as one in which a plurality of kinds of insertion portions are exchangeable with respect to the tool body. This enables cleaning of the connection end face of an optical connector in a connector housing in compliance with the type and size of the connector housing just by changing the insertion portion without changing the tool body.
  • the driving mechanism for feeding the tape is not limited to one that is manually driven, and may be made to be driven by power from a motor or spring and the like. Also, manual driving and driving by motive power can be made to be used in combination or be switchable as required.
  • the insertion portion is made to completely cover the cleaning tape, except for the opening formed at the distal end of the insertion portion, but is not necessarily limited thereto. If the cleaning tape is prevented from being contaminated by contact with the inner walls of the connector housing and the like when inserting the insertion portion in the connector housing, the shape or structure is not particularly limited, and does not necessarily need to be sleeve shaped.
  • the feeding amount notification mechanism it is possible to adopt an optional mechanism to notify the amount of feeding of the cleaning tape by, for example, emitting a signal such as a sound or lighting/flashing of a lamp in accordance with the feeding amount of the cleaning tape, without limiting to the constitution of the eighth embodiment.
  • the cleaning tool of the aforementioned eighth embodiment as an optical component cleaning tool used for optical components such as optical fiber arrays, planar lightwave circuits and optical transceivers, can be used for cleaning the end face of an optical component at which the end face of a lightwave circuit (an optical fiber being possible) is disposed.
  • the optical fiber arrays may include one serving as an end face by its optical fibers being retained in one or a plurality of positioning grooves such as V-grooves positioned side by side that are formed on a substrate, the positioning grooves extending to at least one end of the substrate, and the end face of the optical fibers being arranged at one end of the substrate.
  • positioning grooves such as V-grooves positioned side by side that are formed on a substrate, the positioning grooves extending to at least one end of the substrate, and the end face of the optical fibers being arranged at one end of the substrate.
  • Various constitutions are also known of optical components having planar lightwave circuits.
  • the optical component cleaning tool of the present invention even in the case of the end face of the optical component being disposed in a recess of a housing or the like, instead of the connection end face of the optical connector, the end face of another optical component, that is the end face the an optical fiber or the end face of a substrate or the like, can be cleaned by a cleaning tape wrapped around a head.

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US11/216,211 2003-03-06 2005-09-01 Optical connector cleaning tool, cleaning tape, optical connector cleaning method, optical component cleaning tool Expired - Lifetime US7212719B2 (en)

Applications Claiming Priority (15)

Application Number Priority Date Filing Date Title
JP2003060684A JP3836439B2 (ja) 2003-03-06 2003-03-06 光コネクタ清掃工具
JP2003060685 2003-03-06
JPP2003-060684 2003-03-06
JPP2003-060685 2003-03-06
JP2003143557A JP4173402B2 (ja) 2003-03-06 2003-05-21 光コネクタ清掃工具および光コネクタ清掃方法
JPP2003-143557 2003-05-21
JP2003144809 2003-05-22
JPP2003-144809 2003-05-22
JPP2003-333483 2003-09-25
JP2003333482A JP3880955B2 (ja) 2003-05-22 2003-09-25 光コネクタ清掃工具および光コネクタプラグの清掃方法
JP2003333483A JP4163083B2 (ja) 2003-09-25 2003-09-25 光コネクタ清掃工具および光部品清掃工具
JPP2003-333482 2003-09-25
JP2004018513A JP2005215045A (ja) 2004-01-27 2004-01-27 光コネクタ清掃工具および光部品清掃工具
JPP2004-018513 2004-01-27
PCT/JP2004/002736 WO2004079421A1 (ja) 2003-03-06 2004-03-04 光コネクタ清掃工具、清掃テープ、光コネクタ清掃方法、光部品清掃工具、および光部品清掃工具

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US20110229960A1 (en) * 2005-03-18 2011-09-22 Hans List Tape magazine for a hand-held device
US20140259481A1 (en) * 2011-12-05 2014-09-18 Fujikura Ltd. Optical connector cleaning tool
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JP2012053270A (ja) * 2010-09-01 2012-03-15 Fujikura Ltd 光コネクタ清掃工具
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US9411110B2 (en) * 2013-02-06 2016-08-09 Corning Optical Communications LLC Fiber optic connector cover and fiber optic assembly including same
USD800660S1 (en) 2015-06-05 2017-10-24 Corning Optical Communications LLC Fiber optic connector
USD800659S1 (en) 2015-06-05 2017-10-24 Corning Optical Communications LLC Fiber optic connector
WO2017051759A1 (ja) * 2015-09-25 2017-03-30 株式会社巴川製紙所 コネクタの清掃用具
US10557996B2 (en) 2015-09-28 2020-02-11 Commscope Technologies Llc End face protection tape for fiber optic connector; and methods
US9971100B2 (en) * 2016-03-01 2018-05-15 Leviton Manufacturing Co., Inc. Methods and devices for preventing contamination of fiber optic connectors
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EP3531178A4 (en) * 2016-11-09 2020-05-06 Fujikura Ltd. CLEANING TOOL
TWI662754B (zh) * 2018-05-14 2019-06-11 普泰光電股份有限公司 具有清潔功能之光纖連接器的防塵件
CN109061809B (zh) * 2018-09-07 2024-01-30 深圳市飞速创新技术股份有限公司 一种光纤连接器接口端面清洁器
JP2021021778A (ja) * 2019-07-25 2021-02-18 矢崎総業株式会社 光コネクタ、光ファイバの端末構造
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US20080118207A1 (en) * 2005-01-24 2008-05-22 Sumitomo Electric Industries, Ltd. Optical Fiber Module
US20110229960A1 (en) * 2005-03-18 2011-09-22 Hans List Tape magazine for a hand-held device
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US9134485B2 (en) * 2011-12-05 2015-09-15 Fujikura Ltd. Optical connector cleaning tool
USD816523S1 (en) * 2016-08-17 2018-05-01 Fluke Corporation Fiber inspection probe
USD850953S1 (en) 2016-08-17 2019-06-11 Fluke Corporation Fiber inspection probe

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